Name: Building a Living Heart Using 3D Technology – Life Sciences – Dassault Systèmes @dassaultsystemes
Uploaded: 2024-10-11T08:17:00-05:00
Duration: 8 min 17 s
Description: Building a Living Heart Using 3D Technology – Life Sciences – Dassault Systèmes

Building a Living Heart Using 3D Technology – Life Sciences – Dassault Systèmes

Dassault Systèmes 2024-10-11 | Building a Living Heart Using 3D Technology – Life Sciences – Dassault Systèmes

Dassault Systèmes Takes Over Piccadilly Circus 🇬🇧 #dassaultsystèmes #piccadillycircus #3DEXPERIENCE

Dassault Systèmes 2024-04-30 | Discover Dassault Systèmes like you’ve never seen it before on Piccadilly Lights!
Including immersive visual effects, discover how our major universes impact the world, leveraging 3D DeepScreen technology.

Video credits: Ocean Outdoor / oceanoutdoor.com

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Dassault Systèmes Takes Over Piccadilly Circus

Dans les coulisses du Career Starter 2024 - Dassault Systèmes

Dassault Systèmes 2024-04-30 | Jetez un coup d'œil à la 8ème édition du "Career Starter" de Dassault Systèmes — notre événement phare où plus de 300 stagiaires et apprentis ont exploré leurs futures opportunités au sein de l'entreprise ! Vous êtes intéressé pour nous rejoindre également ? Découvrez toutes les offres ici : go.3ds.com/FdC

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From The Inside - Dassault Systèmes Career Starter 2024

Dassault Systèmes 2024-04-30 | Take a glimpse at the 8th edition of the Dassault Systèmes 'Career Starter'— our flagship event where over 300 interns and apprentices explored their future opportunities within the company! Are you interested in joining us too? Check out all the offers right here: go.3ds.com/FdC

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We are 3DS, hiring, careers, event, job, interns

Peugeot Sport - Accelerating performance with dynamic simulation ǀ Dassault Systèmes

Dassault Systèmes 2024-04-29 | Building the new PEUGEOT 9X8 Hybrid Hypercar from scratch, Peugeot Sport partnered with Dassault Systèmes and adopted the 3DEXPERIENCE platform to gain aerodynamic performance while saving significant time, money and resources in the process.

Discover more at: 3ds.com/insights/customer-stories/peugeot-sport-hybrid-hypercar

👁️‍🗨️Transcript of this video:👁️‍🗨️
I always feel privileged
to drive cars like the 9X8

with the atmosphere, the spectators
around the circuit, it's amazing.

We have cars that reach maximum speeds
of around 340 km/h.

So in this type of vehicle,
the role of aerodynamics is very important.

The SIMULIA cloud on the 3DEXPERIENCE platform
has been essential for us.

It allows us to work much faster
and also motivates the teams.

The 9X8 is PEUGEOT's Hypercar that complies
with the FIA Hypercar regulations

currently in place in the World Endurance Championship.
This regulation is quite innovative.

It gives what we call a performance window -
the minimum and maximum level of aerodynamic performance.

At the end, cars are evaluated in the same wind tunnel.
It's extremely expensive,

so we try to prepare all of the work ahead of time
using digital simulation which is cheaper and more flexible.

The major challenges in the 9X8 design
are mainly linked to the discipline itself.

These vehicles go at extreme speeds.

Also, the schedule is relatively tight
since we have to respect the championship timing.

We use CATIA for the mechanical and surface design.

We also use [SIMULIA] Simpack for digital simulation,
which is very important for us.

And then, on this project, particularly for the aerodynamic aspect,
we use 3DEXPERIENCE with [SIMULIA] PowerFLOW on the cloud.

We use Dassault Systèmes solutions every day.

We create the virtual vehicle with it,
and all the workshops can access this model.

It enables us to work on the same data
without duplication, and reduces the risk of error.

This is the key to success for us.

Aerodynamics greatly affects the car's behavior.

The correlation between simulations from the engineers
and what we feel on the track is really very good.

If an engineer says: "OK, this is the window where the car
is most efficient," then it's really the case in reality.

When the car is high, when it's low, when it pitches forward or backward,
when it rolls in corners, the aerodynamic parameters change.

We model that and we get to see which areas
of the car are working well, which ones are not,

and we can see defects,
and that automatically generates ideas.

Another advantage of [SIMULIA] PowerFLOW for CFD
is to be able to run CFD simulations several times a day.

So we have a constant evolution of the shape.
CFD also allows us to stabilize the models.

The partnership with Dassault Systèmes ultimately allowed us
to quickly start a project from scratch

without having to go through an entire learning phase.
We had powerful tools that we already knew.

In conclusion, we managed to achieve technical excellence
while meeting deadlines, keeping a schedule, and lowering our costs.

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Total Quality Management with 3DEXPERIENCE - Aerospace and Defense | Dassault Systèmes

Dassault Systèmes 2024-04-25 | In today's rapidly evolving aerospace and defense sector, Total Quality Management (TQM) has become pivotal for achieving operational superiority and meeting the increasing demands for quality and efficiency. The key to success lies not only within the internal processes of manufacturers, but significantly within the capabilities of their supply chain. At #DassaultSystèmes, TQM with the #3DEXPERIENCE platform is the industry's enabler.

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Cloud & SaaS Solutions: Benefits for Startups and SMBs

Dassault Systèmes 2024-04-23 | In this episode, two returning guests share their insights into the benefits of implementing cloud and SaaS solutions for startups and small and midsize-businesses (SMBs). Learn how cloud and SaaS enable better innovation and growth and how they are transforming collaboration across industries.

Tune in with Dassault Systèmes experts Vincent Frèrebeau, vice president of online store and cloud adoption, and Sébastien West, worldwide value engagement cloud and infrastructure director.

Notre engagement envers léconomie circulaire - Dassault Systèmes

Dassault Systèmes 2024-04-22 | Pas tous les héros portent des capes ! L'économie circulaire est essentielle de nos jours ! Écoutez l'histoire de notre collaboration avec nos clients pour concevoir un e-vélo révolutionnaire, racontée par nos héros de l'économie circulaire : Amaury, Marie, Tanvi et Kristina.
Vous voulez agir pour un avenir durable avec nous ? ♻️ Rejoignez-nous maintenant go.3ds.com/gSe

#WeAre3DS #durabilité #économiecirculaire #véloélectrique #avenirdurable

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Meet Lisa Belkhichane, Aerospace & Defense Industry Value Expert - Dassault Systèmes

Dassault Systèmes 2024-04-22 | Meet Lisa Belkhichane, Aerospace & Defense Industry Value Expert at Dassault Systèmes and a shining graduate of our Rise Up program! Lisa's journey through our 2021 Rise Up cohort has been truly transformative. It's not just about advancing in your career, but also about personal growth.Watch Lisa's story for insightful reflections! Interested in joining our teams?

Apply here: go.3ds.com/gSe

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Our Commitment to Circular Economy - Dassault Systèmes

Dassault Systèmes 2024-04-18 | Not all heroes wear capes!
Circular economy is key nowadays! Listen to the story of how we collaborate with our clients to design a revolutionary e-bike, told by our Circular Economy heroes. Do you want to act for a sustainable future with us? ♻️ Join us now: go.3ds.com/FdC

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Manufacturing Execution and Monitoring Solution - Marine & Offshore - Dassault Systèmes

Dassault Systèmes 2024-04-17 | Dassault Systèmes' DELMIA Shipyard Manufacturing Execution and Monitoring solution stands out for its well-known customization capabilities tailored for large shipyards dealing with:

• Complex constraints
• Optimization challenges
• High production volumes
• Supply chain intricacies

The solution allows manufacturers to use data-driven KPIs to measure productivity, material flow and cycle times – enhancing the entire production system with real-time updates.

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HORYZN helps save lives with drones – Dassault Systèmes

Dassault Systèmes 2024-04-17 | HORYZN is a German student project at the Technical University of Munich (TUM) that is researching the use of drones to deliver defibrillators faster than an ambulance in emergencies. Implementing the 3DEXPERIENCE platform on the cloud enabled the centralization of all aspects of its fixed-wing drone, resulting in improved collaboration, elimination of the need for physical prototypes, and major time and money savings. Discover the full customer story: 3ds.com/insights/customer-stories/horyzn-evtol-drone

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Layout and Simulation Solution - Marine & Offshore - Dassault Systèmes

Dassault Systèmes 2024-04-17 | Build For Sea Industry Solution Experience supports supply chain planning and optimization. It provides the ability to optimize production planning and scheduling at the lower level of granularity (machines, materials and labor).

Powered by Dassault Systèmes' DELMIA Quintiq and DELMIA Ortems, the solution enables shipbuilders to maximize productivity, reduce costs and manage resources efficiently. Production planning helps shipbuilders improve their bid-to-win capability.

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Planning and Scheduling Solution - Marine & Offshore - Dassault Systèmes

Dassault Systèmes 2024-04-17 | Dassault Systèmes' DELMIA planning and scheduling solution supports shipyards and suppliers with specific workshop requirements.

The solution allows shipyards and suppliers to efficiently define, optimize and manage shipyard resources and production plans.

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Answer Shipbuilding Challenges With Digital Manufacturing - Marine & Offshore - Dassault Systèmes

Dassault Systèmes 2024-04-17 | This video interview with Sohaib Telhimt, Manufacturing Business Consultant for the Marine & Offshore Industry at Dassault Systèmes, covers how digital manufacturing is the key to overcoming shipbuilding challenges. This interview answers these questions:

1. What are the challenges of shipbuilding today?
2. What is a smart shipyard?
3. What are the advantages of transforming into a smart shipyard?
4. What is the approach to implementing a smart shipyard?
5. What are the key benefits of Dassault Systèmes’ manufacturing solutions?

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Advancing circular economy: Our cities and public services expert describes how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our cities and public services specialist, Ismail Hamoumi, as he outlines what it takes to advance the circular economy in cities — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What are a few essential
and critical actions that can advance the circular
economy through cities?
This is a really critical question.
By adopting circular economy policies and practices,
cities can catalyze significant change.
In this regard,
urban planning is fundamental
since the circular economy affects all
public policies managed by the city,
whether it's waste treatment, energy,
the purchase of materials,
the recycling of urban equipment
or building maintenance.
Cities are major consumers of resources.
Moreover, they cannot ignore
the eco-systemic and territorial dimensions
of the problems.
Every stakeholder from industries to local public players
can play a role in this circular economy.
But there is usually no single player
that can act as a link.
And this is why cities are taking these positions
and are also including collaborative approaches
into their strategies,
supported by technology, and aimed to create
territorial ecosystems that are active
in the circular economy.
In this regard,
public policy and regional planning are affected.
The success of a circular economic approach
cannot be achieved
without the commitment of local economic partners
and the mobilization of all local stakeholders.
This is why renewed urban planning goes hand in hand
with a marked effort to mobilize and convert.
In this regard,
to explore how cities are producing public policies
that are related to the circular economy principles,
we're going to deep dive into two different topics.
The first one is energy use
and the second one is waste management.
Regarding energy use,
we all know energy systems are vital
to urban infrastructures.
Energy demand will only increase as urbanization grows
but at the same time,
cities worldwide have pledged to move toward
cleaner energy sources as part
of their COP21 agreement.
For example, in Germany,
Munich is aiming for a 100% supply
from renewable sources by 2025
and is compelling its utility companies to source only
from renewable sources.
Other initiatives include investments in smart grids,
which enable more efficient energy distribution
and decentralize energy exchange
through real-time communication
between energy generators,
utility companies and consumers.
Our second example is on the topic of waste management.
Waste management is a key issue
for cities that are committed
to circular economy approaches.
Indeed, effective waste management maximizes the reuse,
the recycling and the recovery of materials,
which thereby reduces the amounts
of waste transferred to landfills
or incineration.
By implementing advanced selective collection,
sorting and treatment systems,
cities can recover
a large proportion
of the potential resources present in waste.
This helps to save raw materials,
to reduce the environmental footprints
and to stimulate the local economy
by creating job opportunities
in the waste management sector.
The use of digital platforms
is also profoundly supporting
and changing waste management
by facilitating the circulation of data
and also setting up intelligent systems that are able
to use real-time data,
which are supporting, for example,
more efficient plans for collection trucks.
Additionally, these platforms are fostering communication
and collaboration
between all stakeholders in the waste management systems.
And they also enable better system management
as it is easier to track, analyze and facilitate waste management
through data-driven decision making.

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Sustainability in procurement: Our transportation specialist shares how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our transportation and mobility specialist, Christophe Montjault, as he uncovers the three steps companies must take to cut environmental impact in raw material procurement and manufacturing — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Raw material procurement
and manufacturing generate a sizeable environmental footprint.
What are three steps companies can take to tackle this?
Step one
is to optimize the design.
Engineers are asked to reduce the weight
of the component
in order to bring better vehicle performances.
So going to the lightening of the vehicle.
But in order to do that,
they will develop a new virtual simulation
that will add them
to design parts with less materials
using different technologies
but without compromising
the expected performance of the vehicle.
Step two — choose a sustainable material.
That means how to help or guide the engineer
to better use recycled materials.
In addition, the recyclability of the used material
need to be taken into consideration
at the end of life of the vehicle
in order to follow
the circular economy rules.
Step three,
innovate with new materials.
To take some examples,
replacing leather
with a synthetic one based on recycled bottles of plastic.
Bio-sourced material is another axis of development
by using waste from agriculture.
As a consequence, the final objective
is to limit the extraction of new virgin materials,
which is the principle of the circular economy.

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Is the future of furniture circular? Our manufacturing expert reveals - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | According to IKEA, the future of furniture is circular. Is renting furniture a solution for circularity? What happens to the value chain? Get answers to these questions from our manufacturing expert, Hrishikesh Mohan, as he explains how furniture companies can achieve their circularity goals, starting with materials.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

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Deliver more sustainable, safer therapies, our life sciences expert reveals how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | How can companies identify safer and more sustainable chemical syntheses for new therapies? Listen to our life sciences and healthcare expert, John McCarthy, as he outlines the three steps that companies can take to get started.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Companies want to identify safer
and more sustainable chemical syntheses for therapies
What are some of the steps they can take to get started?
So that's a really cool question
It's a really cool question, because I think
the pharmaceutical industry has really been engaged in
green chemistry initiatives for a really long time
Both because it's good for the environment
but it's also good for their business
Green chemistry approaches lower the cost of manufacturing
In fact, the American Chemical Society has 12 principles
of green chemistry that the industry can utilize
And from these principles
we can really identify three core steps that companies can take
First, take an advantage of much more
environmentally friendly solvents
solvents account for 75% of the cumulative
lifecycle environmental impact
And the ACS has published a list of
green solvents that processed
chemists can incorporate into their synthetic design right away
Secondly, incorporating environmental calculations
into this synthetic design
is within a chemist's electronic lab notebook
is something that can really help them identify
better chemical syntheses
Calculations, such as atom economy
process mass intensity and greenness scores
can readily guide chemists to alternative approaches
And finally
designing for energy efficiency
by utilizing some of the core principles, such as
if I have fewer synthetic steps
I'm going to use less energy in creating that active ingredient
I'm going to or by lowering the heat of a reaction
lower the amount of cooling
that I need to cool down that reactor after the synthesis
So, some really great things that the
pharmaceutical industry has been doing for a long time
and great guidance that they can take from
these 12 steps from the American Chemical Society

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Steel vs recycled concrete: Our architecture expert reveals all - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Listen to our architecture, engineering and construction expert, Remi Dornier, as he explains which material innovations are contributing to the bottom line — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Which material
innovations contribute to the bottom line?
What are their strengths and limitations?
I think, first of all
we need to chase and decarbonate
the materials, which are highly carbon-consuming
So I have two in mind
Steel and concrete
And there are many initiatives in order to lower down
concrete
Today
materials
I mentioned about
using recycled concrete
also, in fact, for example
mitigate that by introducing, in fact
bio-source fibers
or wood inside a slab
today, which is engineered only by concrete
Example number two
this is to develop wood constructions
So wood has always been
a staple in constructions
and this is a very good alternative
to concrete or even to steel in order to decarbonate
the constructions
So we see emerging strategies
prefabricated strategy on
timber frame approach or even
cross laminated
timber approach
to replace the element of structures
and there is today, a real, I would say
cost regarding timber's usage
It's going by 14% today every year to replace
existing materials
And last but not least
I mentioned about innovative practices
in order to engineer
new innovative materials
I'm thinking about heating systems
and cooling
systems in cities, which are more and more wider spread
and that are cooling or heating
several houses in one shot
and this is
very efficient in terms of energy savings and so on
And then I'm thinking also about
new kinds of materials, such as
glass, photovoltaic glass is able
also to generate power

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Are greener plastic alternatives better? Insights from our CPG and retail expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Listen to our CPG and retail expert, Hrishikesh Mohan, as he explains what companies can do to put a stop to single-use plastics without harming margins — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

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Integrating renewable energy carriers: Our aerospace expert shares how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our aerospace and defense specialist, Lisa Belkhichane, as she explores the steps companies can take to integrate renewable energy carriers into their processes — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can OEMs and superiors integrate renewable energy carriers into their processes?
They need to work at all levels. First, at the product level, they need to define new materials because we know that we will deal with nuclear, new hydrogen systems like hydrogen tanks, hydrogen filters, even enhanced battery systems and electric engines and they all rely on the performance of materials that need to be not only more lightweight materials but also enhanced materials in terms of performance. So, that's why this project level at a very finite scale is important to achieve this new innovation in aviation. We also need to focus on the product level to accelerate innovation of the architecture in terms of system architecture and energy management distribution within the aircraft. And, of course, they will also need to focus on the value network level because this is a matter of the world value chain and distribution of hydrogen from its production, separation and distribution until the airport. So that's why this consideration is also crucial to accurately assess the performance across the whole value network.

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Digital tools, more recyclable products: Our innovation expert shares how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our scientific innovation specialist, Kai Zhang, as he delves into why digitalization is crucial in the production of more easily recyclable products — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can digital tools help in manufacturing products
that are more easily recyclable?
What are the top three benefits
digitalization offers?
Okay, the concept of designing
and manufacturing products that
can be easily recyclable
has become increasingly important
in our quest for sustainability
for sure.
I think first,
digital tools enable design for recyclability.
By facilitating virtual prototyping and testing,
engineers can simulate product
performance and recyclability
before physical prototypes are ever created,
optimizing the design from the outside.
Next, digital tools assist in materials management
and selection.
By providing access to vast materials
databases and simulations,
manufacturers can choose recyclable materials that meet
performance requirements.
Next, digital tools
also enable process optimization,
helping manufacturers
identify and reduce waste during production,
making products easier to recycle.
The next one is about smart manufacturing
powered by digital tools that allow real-time monitoring and
control of production processes.
This not only enhances efficiency,
but also ensures that products are manufactured
with minimal waste and maximum recyclability.
The last point I want to mention here is a collaborative
platform that enables
seamless communication and data sharing among shareholders,
including designers, manufacturers and recyclers.
This fosters collaboration in optimizing product designs for recyclability.
There are so many benefits
of digitalization for manufacturing recyclable products.
The first one
I want to talk about is definitely cost reduction.
Digital tools streamline the product development process,
minimizing errors and the need for physical prototypes.
This leads to cost savings in both materials and labor.
The second benefit is
that digital transformation
helps reduce carbon dioxide emissions and waste.
By optimizing processes and materials,
manufacturers can lower their environmental impact,
contributing to a greener and more sustainable future.
The third benefit
is the acceleration
of time to market and gain a competitive advantage.
With digital tools,
product development cycles are shortened,
allowing companies to bring
recyclable products to market faster,
staying ahead of the competition.
So sustainability is not becoming,
sorry.
Sustainability is now becoming a market differentiator.
Embracing digital transformation
can position your company
as a leader in sustainable practices,
attracting customers and partners.
It is not only a smart business move,
but also a critical step
toward a more sustainable and circular economy.

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Certifying more circular solutions: Our transportation specialist uncovers how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our transportation and mobility specialist, Christophe Montjault, as he reveals what it takes to test and certify more circular solutions throughout the product development lifecycle — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can manufacturers test and certify
more circular solutions
throughout the product development lifecycle?
They can do this
by using virtual twins
integrated with lifecycle assessment solution.
During engineering,
perform this evaluation
from the early stage of the design
in order to let engineers
simulate, predict the carbon footprint
from cradle to grave
and also, to see
how fast they can reduce this footprint.
This evaluation
done in the early stage
enables them to test different alternatives of designs
on the materials
in order to choose the best solution
before engaging a higher cost
For every component,
they could also predict
how to reuse it as a second-life
or how to repair it in the best manner.
They could also
quantify the footprint at the end of
lifecycle processes,
could be dismantling or recycling.

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End-to-end product footprint: Our supply chain and logistics expert reveals how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our supply chain and logistics specialist, Carlijn Goedhart, as she explains how companies can improve the environmental footprint of their products from end to end — one of many big concerns on the minds of business leaders today. Hint: Life cycle assessments play a critical role.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can companies improve
the environmental footprint of their products from end to end?
So before
I give some concrete examples
it all starts with
life cycle assessments
So understanding how the product
travels through the different processes
so that can be material extraction
manufacturing, production, the use phase
and then waste — and of course
the first one and the last one
we’d like to eliminate to make sure that
everything stays in the loop
So after understanding
It's about measuring
and setting targets
And that's not only energy or
things like that, but also material use
water use and where in the process is most of the waste consumption
And then of all these phases you would like to
know which one has the biggest impact
so that we can focus on these
then we can come up with process improvements
and companies may want to simulate this first
before applying them to the real world
And that is where Dassault Systèmes can
provide virtual twins for
so let me give a few examples of that
So it's about how to design our products
And then choosing the materials wisely
so that they have less environment impact
so companies may choose for bio-based materials instead
It's about how to
or where to source these materials from
so maybe I can set up local supply chains
and maybe I can choose suppliers that
instead of new material, they provide
recycled material
It's about designing the
manufacturing line in such a way that it uses
less energy, water and materials
And also to design them in a way
that we can dismantle the products so that they can repair it or
production processes may use very energy intensive resources
and maybe they can be utilized better
or in the execution phase
how to remove the product failures
So these are just a couple of questions
but of course, companies can do much more than this and
Dassault Systèmes is here to support you with that

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Improving reverse logistics: Our manufacturing expert reveals how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our manufacturing expert Andrea Cagnin, as he outlines clear steps to improve reverse logistics — one of many big questions on the minds of manufacturers today.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What are the steps manufacturers need to improve their
reverse logistics?
I will answer with three steps
The first one is the collection disposal
so we need to answer the question
how to collect the parts and machine modules
from the final user
So today, the OEMs have done a very good job
in optimizing the sales network
So how to sell
the product
how to provide the final product to the final customer
but now they need also
to optimize the network on
how to recover
how to collect
that part that they sold a few years before
from the final customer
And then how
to correctly dispose the product
considering exact material evolution regulation
along the product lifecycle
We saw that during the
the decades
the regulation changed
and evolved
And so what was dangerous
was a dangerous material few years ago
it’s not today
So it's important to understand and to track
what has been installed and where
to be able to know
how to collect it and where
Digital twin and real-time monitoring will enhance
OEM to follow up asset situation
and maintenance background
to be able to understand what to collect
where to collect it and how
Then tools like Quintiq
can help to optimize operations on the field
Second step, is the disassembly and recovery
So we need to answer the question
how to disassemble the assembly?
If we think about welding
clips or non-removable connections
These connections deny dismantling operations
In this case
asset reusability can be compromised since part
of the assembly
has to be broken to allow this assembly operation
Hence, OEMs needs to embed in the engineering mindset
the notion of design to disassembly
to be able to increase the usability
and repairability and recyclability rate
during ownership and end of life
Another question of the second part is how to recover
close to 99% of
raw material and funnel the material back
into the loop
So, perfect disassembly and split-part assembly
would be possible to sort
different raw materials
increasing the recyclability rate
Some coatings and treatments
would be avoided
to increase the recyclability of raw material
Embedding design for sustainability into design
for manufacturing engineering roles
will optimize
parts recovery and re-usage at the end
of the product lifecycle
while optimizing manufacturing processes
The third step is quality
Here, we need to answer the question
How to check the quality of the part
that we collected?
Is the part still usable?
These are tricky questions but tools like
internet of things
big data
artificial intelligence
and simulation
are fantastic tools that can help us to understand
if
the part is still usable or not
By tracking the assets' performance
all along the product lifecycle
we can understand
if the fatigue limit has been reached or not
and so, identify if the part
is still usable or not

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Circular cities question, answered by our cities and public services expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our cities and public services specialist, Ismail Hamoumi, as he discusses how digitalization fuels circular economy progress in cities — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/enterprise-value-network

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can digitalization support circular
economy initiatives and accelerate progress in cities?
Digital policies are indeed
key to support circular economy initiatives.
Today,
digital platforms enable circular economy principles to be applied
on a larger scale by improving access to information,
managing and tracking materials,
increasing transparency
and also deploying innovative circular innovations.
The production update and sharing of timely,
consistent and comparable policy-relevant data
are keys to informing policymakers
policymaking and implementation.
For example, mapping empty buildings would help
avoid new constructions
and also plan alternative usage for existing ones.
Cities have also tried,
for many years, to optimize the use
of their parking spaces
both day and night
by mapping their usage rates
and exploring new ways of adding value.
Over time, improving data and information
creates value for local economic development actors
and also raises awareness
on the impact of the circular economy.
Another really insightful example is that of the city of Antwerp.
Antwerp in Belgium has been investigating the relation
between internet of things,
the IoT,
and the artificial intelligence (AI)
in its impact on fostering
the circular economic transition
particularly in two sectors,
the energy one and the construction one.
Today, Antwerp gathers real-time data on resource uses,
waste generation and energy consumption.
This data is then processed
and analyzed using AI algorithms
to identify opportunities for optimization
and efficiency improvements.
By harnessing the power of IoT and AI,
Antwerp seeks to create smarter,
more sustainable urban environments.
In this regard,
digital policies are also supporting us
in understanding how the local actors are behaving.
People's attitude to adopt emerging business models
or social innovations
can also be followed
and monitored in different ways.
This data can enable policymakers to judge
and understand the potential
of further circular economic policy initiatives
that they will need
for their policy action.

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Reverse material flow question, answered by our innovation expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our scientific innovation specialist, Kai Zhang, as he explores the key steps for science-based firms to get started on the reverse flow of materials — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/enterprise-value-network

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What does the reverse flow of materials
look like to science-based companies?
Share a few strategies that
could help companies get started.
This is a great question.
This topic
is being discussed across different industries.
The reverse flow of materials is a concept
that science-based companies are increasingly
embracing as a part of their sustainability efforts.
It involves the process
of recovering materials from used products,
recycling waste materials and using insights
gained from analyzing returned products
to inform future product design and manufacturing processes.
We can discuss a few examples here
to help companies initiate this journey.
The first example I want to talk about
is material recovery,
one crucial aspect
where valuable materials are extracted from used products.
This not only reduces waste
but also allows companies to reclaim and reuse
precious resources.
The second example I want to talk about is recycling.
Recycling plays a critical role in the reverse flow of materials.
It involves transforming
waste materials into raw materials
that can be reintroduced
into the manufacturing processes,
reducing the need for
very valuable resources.
The third idea
I want to share is about product design
and improvement.
An often overlooked, but significant aspect
is using insights
gained from analyzing returned products to inform
future product design and manufacturing processes.
The initiative approach
ensures that products are
designed for sustainability from the outside.
So how can science-based companies begin
implementing the reverse flow of materials?
What are the strategies?
I want to share some from my point of view
to give you some ideas.
The first one I want to talk about is
to conduct a material flow analysis.
Start by conducting a comprehensive
material flow analysis within your organization.
Identify key materials used in your products
and assess opportunities for recovery and recycling.
The second strategy is to implement closed-loop systems.
Introduce closed-loop systems,
where materials are recaptured
and reintegrated into your production processes.
This reduces reliance on new resources
and minimizes waste generation.
The third strategy would be
to collaborate with your suppliers.
Engage with your suppliers
to ensure that materials are sourced
sustainably and can be easily recycled
or recovered at the end of their life cycle.
Consider partnerships with suppliers who share
their sustainability goals with you.
The next one is to invest in research and development (R&D).
Allocate resources to R&D efforts.
Focus on sustainable materials
and recycling technologies.
Stay at the forefront of scientific advancement
to drive innovation in materials recovery and recycling.
The next one is to collect and analyze product data.
Gather data on the performance of returned products
including failure modes or material degradation.
Use this data to inform product design improvements,
extending product lifecycles and reducing waste.
The last idea I want to share here is to
educate and engage with your employees.
Ensure that your employees
understand the importance of the reverse flow of materials
and their role in this implementation.
Encourage a culture of sustainability and innovation
within your organization.
So, in conclusion,
the reverse flow of materials is a powerful approach
for science-based companies
to enhance sustainability,
reduce waste and drive innovation.
By recovering materials,
recycling waste and continuously improving product designs,
companies can
contribute to a more circular and sustainable economy.
Implementing these strategies
may require initial investments
but long-term benefits for both
environment and your business are substantial.

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Avoid logistics circularity pitfalls: Our business services expert shares how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our business services specialist, Yann Pithon, as he outlines strategies to overcome common logistics challenges that arise when developing a circularity strategy — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/enterprise-value-network

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Describe four pitfalls
that logistics service providers often encounter
when developing a circularity strategy.
How can they avoid or overcome these roadblocks?
Huge question.
I think the first
pitfall that could come is that
a logistics service provider is not working for itself.
It’s working for its own customers.
So the first thing is to
discuss the responsibility
and be sure what is under its responsibility,
when it can act upon,
what it can influence, leverage and
also, what it should discuss with the customers,
because at the end,
it may have its own
sustainable strategy or program,
but this may have an impact on its final cost.
And if there is an impact on its final cost,
that would be an immediate
impact on its customers.
So definitely, the first thing is to create a collegial
environment with the customers
in order to define a collegial strategy to a collaboration
that could be
in the equipment use,
that could be in the services proposed, that could be
in the way the processes are designed.
But it can also touch something more strategic,
that is the service level.
What manages the relationship between
a service provider and a customer is the service level.
And this service level can be a huge constraint for the service provider.
It should definitely be
in a position to propose alternatives
for the customers
in order to reduce its
constraint during the peak period
when the volume is high.
The service progress should be
attracted to hire, for instance, more people to
ensure the service level
in order to pass the volume. But if it is authorized
to smooth, a bit, their activity, to unleash
its capabilities,
it will be able to deliver the same volume over
a longer period.
So, it may
use the service level in a different way.
But the service provider is also seen as an extension
of its customers.
So definitely,
the first thing will be to discuss with its customers
about the sustainable strategy.
The second point could be the
data quality and the volume exchange with the customers,
in a sense that
if you want to decide properly and in a good way,
you need to be able to base it on some data analyses,
but the accuracy of the data is not always good.
So, both parties,
meaning LSP and its customers,
should work on the data they exchanged
and should be
all targeting
to receive the best data they could have
because that would be the basis for a good decision.
Another point could be
to upskill its workforce.
When you're boarding new employees, they’re trained,
there are ramp-up periods and then they’re executing.
But over time,
wrong habits can appear.
So you need to ensure that your workforce
are all re-trained,
up to date with the instructions for the customers,
up to date
with the changes in the processes and the procedures.
That will be the only way
to ensure efficiency at the operative level.
And most of all,
alone, you cannot do anything.
So, you should work
to collaborate not only with your customers
but also with your peers.
So, it means that if you want to find solutions,
the main thing will be to collaborate
with its environments
that could be competitors,
that could be clients,
that could be associations.
And you can see that, for instance,
in the south of France,
they create a green lane between Marseilles and Lyon.
There is an association of
different competitors on road freight
that are collaborating to increase their efficiency
and to make their transportation as clean as possible.

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Convincing customers on sustainability: Our business specialist reveals how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our business services specialist, Yann Pithon, as he explores effective strategies to persuade customers to embrace sustainability while maintaining healthy service levels — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/enterprise-value-network

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Customers want things faster and cheaper.
How can they be persuaded to consider more sustainable
options that may impact time and costs?
Share five ways that companies can maintain healthy service levels
while increasing circularity.
Consumers are increasingly
demanding in terms of transparency
on production processes,
including environmental and social impacts.
What was true for the food chain is now
becoming true for any sector.
People are saying,
preferring, buying from companies and brands
whose behaviors are aligned with their own
expectations and their own convictions.
What driving us in a bit of a paradigm
because we are now getting used to having additional services
and we want it to be delivered the next day.
We want to receive it as fast as possible,
we don't want to wait.
But we also want to be much more conscious on
this sustainability and now,
consume better
is going by pair with consume less.
But we don’t all want
to lose what we gain and what we now get used to
and we don't all have the same sensitivity
about sustainability.
This drives us into this change of paradigm
but brands have a front-hand or
a front-side role to play
to create a new imaginary and help consumers
behave more sustainably.
We can mention different
options that can be used by brands that can propose
a range of dates
instead of a fixed date of delivery.
We can create or set it to modulate the delivery date.
Then, the carrier will be able to
estimate when it will be the most profitable
for him but also include some sustainable
topics inside to be sure that they deliver on time,
but with the most
sustainable option.
We can also
calculate and show to the customer
the carbon emission of each delivery option.
Then the customer can select on purpose.
We can also expect the customers to
think differently in terms of services and potentially
use more and more
pick up and drop off points or lockers
that will help the carrier to massify the delivery
and the collections.
But we can also go into a more omnichannel strategy
and have people deliver
their product directly in stores.
Different initiatives can be investigated in this way.
We can see,
we can have brands propose to the consumers to accept,
items to be delivered on a range of dates
and not at a fixed date.
We can call it modulated deadlines
in order to allow carriers
the opportunity to optimize their own activities
and reduce their carbon footprint.
We've been thinking of increasing the last-mile utilization
with the generalization of the pickup and drop-off
points, and also the lockers that may help either the
carriers to massify the delivery and the collections
for the returns.
But when looking into the returns,
we can also have brands
propose paid returns to the customers
that can allow some remote fitting, for instance.
We can also
bring up to the customers the carbon footprint of each
delivery option
that let them decide which item to select
but on purpose.
They can also accept to be delivered in-store
that may allow the brand
to massify the replenishment for the store and also
the delivery for the final customer.
But also, we know people are very
in a hurry to receive their products, so we can
see how can they wait a bit more
to receive their products
if they are short in the store,
just to let the
organization organize better
its own supply chain.

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Greening the grid: Our high-tech expert reveals how data centers ace circularity - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Watch our high-tech expert, Michel Monsellier, as he decodes how data centers have embraced circularity — and why some are more successful than others.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How successful are data centers
in embracing circular practices?
Why were some more successful than others?
A data center is a very special animal.
It combines one of several buildings;
a power station,
a cooling station,
servers and as you can imagine,
miles of cabling.
After a race for huge and larger
data centers,
one present trend that we can see around
is to downsize to smaller ones
that are placed in close proximity to users,
minimizing power lines' energy loss.
Different initiatives are undertaken
to minimize data centers' impact.
For example, the renewable energy usage.
Energy efficiency improvements,
especially during idle mode because the data center is similar
as your car when you stop at the traffic light,
the engine can't stop.
Optimization of preventive maintenance
to increase servers' lifetime
while minimizing breakdowns.
Equipment refresh and repurpose for a second life
or other applications is also an interesting point
and it's, by the way,
part of one of the EECONE project use cases.
Because of the data center's size and complexity,
virtual twins open
significant improvement perspectives
and at the Dassault Systèmes,
we have a dedicated high-tech industry solution
for data centers that is addressing their
changes from different angles.

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Improving circularity through customers: Insights from our CPG and retail expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our CPG and retail expert, Hrishikesh Mohan, as he highlights how companies can work with customers to improve circularity — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How can companies work with
consumers to improve circularity?
To improve circularity, consumers are the key
if you can put it that way because
let's say you actually
come up with the most environmentally friendly product
but the consumer experience of the product is not ideal
then it's not going to be a success
Let's say there is no consumer information on
how the product needs to be
recycled or refurbished or
prepared. Ultimately, the product can end up in the landfill
so the consumer is at the center
to kind of see the circularity of the product or the service
So let's start with the design
So let's say if you are designing
your product to
to fit
fit the circular economy model
So you could be designing it for
repairability and durability, so
the design aspect, with respect to the modularity
of the product needs to be considered because
the customer should be able to kind of repair and upgrade
He could be able to kind of
take the product
and kind of bring it to the repair facility with much ease
if it's a modular design, he can actually take one portion of it
The portion, which actually requires
the repairing. And so the
design aspect of the product needs to be considered with the consumer in mind
When you actually do
the take-back programs, which are part of the
the circular economy models or recycling programs
the customer needs to know — and there is a
wealth of information from the usage of the products, which
the manufacturers can look into in order to kind of
make it more efficient
So these programs can allow the
companies to extract a lot of information
so that this is actually coming from the consumer
The next would be that they offer
some discount programs or store credits to consumers
so that consumers can
return the products to those facilities
and that information can be
can be extracted from the data
The next one is with respect to awareness
so consumers are key because
if you are properly informing the consumer
from the information
readily available from the product
they are able to kind of bring the
products back to the appropriate facility, so that
they can be recycled, repurposed, reused or refurnished
So they are also — consumers — key
with respect to innovation
there are a lot of customers or the manufacturers who are
involving consumers in the innovation process
That means they are actually inviting them to
kind of provide them with ideas
of how the product can be made more circular, so a lot of things are
put into the design phase from the consumer insights
so that it enables them to kind of make a successful circular economy product
The last one is the deployment of like
product IDs or product passports
which can do or facilitate in communicating to the consumer
the history of the product
in terms of how it's actually being made
and what to do next once the product has
fulfilled its usage with the consumer
Now this actually also kind of gives a lot of information on
how the consumer actually uses this
the frequency of usage the
the feedback in terms of
other aspects as well can be learned from this
So overall, a collaborative approach, which includes the consumers
and seeing them as a valuable partner
is very critical in terms of improving your circularity

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5 tech opportunities for greener footprint, revealed by our manufacturing expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Watch our manufacturing expert, Hrishikesh Mohan, as he explains how manufacturers can reduce their carbon footprint without losing efficiency — it all starts with the right technology.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
For manufacturers
that want to reduce their carbon footprint without losing efficiency
where do they start?
List 5 tech developments they must know
For manufacturers that want to reduce their carbon footprint there are
quite a number of technology developments, which are out there
We can classify them into around five categories
First category is with respect to the analytical
assessment and predictive tools
and in this category, you see a lot of tools like the
life cycle assessment, the LCA
The other, data analytics and AI
The primary purpose of these are to kind of identify
the hotspots with respect to CO2 emissions
The main purpose is that once you actually identify those
you can implement those
measures to kind of reduce those footprints very efficiently
The second tech development is with respect to materials
There are a lot of user-friendly materials
out there now and substituting them
in your products can significantly reduce the carbon emissions
Now, we are talking here about recycled
biodegradable and compostable materials
Companies are investing a lot of R&D into kind of
discovering these materials and the tools which
enable them like the virtual twin at the molecular level
or the product level are very essential
The third category is with respect to renewable
energy integrations and carbon capture
You can see a lot of articles out there, which are
looking into carbon capture technology
Also for companies who are
trying to kind of reduce their carbon footprint in terms of production
one of the most efficient ways is to transition to
renewable energy sources like solar, wind or hydropower
The fourth category is tools, which enable
sustainable supply chain and circular
economy model initiatives
Companies were requiring their first-year suppliers to be
complying with environmental standards
and this cascades down to year two and so forth
In order to have a proper collaboration
and transparency
there are a lot of tools, which are being put in place
and these are the technical
developments that manufacturers need to consider
And this includes traceability as well
The the last one
is implementation of energy efficient
machinery, IOT, and so on so forth
This actually helped them in real-time monitoring of data
and using that data
to analyze an idea by inefficiencies
which can actually ultimately, lead to the CO2 emissions
and making data-driven decisions for
reducing those CO emissions
and those are the ones which are critical

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Life sciences embrace circularity: Enterprise insights by our industry expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Watch our life sciences and healthcare expert, John McCarthy, as he explains how the value network must evolve to make the industry more environmentally focused — and which aspects need the most investment.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How must the Life Sciences Value Network evolve
to make the industry more environmentally focused?
What aspects need the most investment
and what can be done to ease this transformation?
Well, I think we've all seen the importance and impact
of the supply chain and the value network
during the pandemic and post-pandemic world
The good news is that the pandemic
has forced us to rethink certain approaches and transform
First, recognizing the environmental impact of shipping and the last mile
of the medical device to the hospital
The pharmacy or the patient is now very much part of that equation
In the past, significant CO2 impact would come from
the shipping of parts to the manufacturer for assembly
And now ground shipping approaches
from much more locally sourced parts to lower CO2 emissions
or medical device companies would
have high CO2 impact by doing overnight shipping
of treatments or devices to hospitals at the last moment
whereas now they are taking much more
environmentally friendly approaches to
making sure they have the right stock in the right place
Secondly, there's a huge investment taking place
within the biopharma
world, in terms of having investments in agile and flexible
manufacturing of drug treatments
Here, the investment is several fold
First, what are more
energy efficient manufacturing facilities and how do we build them?
But also ways in which companies can look at
can we scale this out rather than just scale this up?
Being able to scale out
means you produce the drug much closer to the patients
and it often means that you use less water
and solvents for cleaning
It also means that you can
often reconfigure a manufacturing line
to produce multiple drugs in the same facility
This means that
your end treatment is much closer to the patient
in the hospital that needs it
and you have much lower CO2 emissions from shipping it
Finally, the value network itself
is investing heavily in new science and new technology
to improve the overall yield in producing some of these new treatments
In fact, over the past decade within biopharma
the value network has improved the manufacturing
process of the next generation of treatments biologics
and increase the overall yield of that production process by 6X
Not only does this increase output
but you can also readily imagine how
it decreases the amount of energy you need
It also decreases the amount of materials and raw materials that you need
as well as waste that's generated
So the result of this investment in breakthroughs
in science and technology
has really helped address the sustainability
in manufacturing some of these drugs

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Mining is key to circularity. Our energy and materials expert reveals why - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Watch our infrastructure, energy and materials expert, Delphine Gondoin, as she explains why mining holds the key to achieving a circular economy — and what companies can do to speed up the energy transition by 2050.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How central is mining to achieving a circular economy?
So to achieve a circular economy
we need to talk about the energy transition
And most of the program
to make the future more sustainable will require
large volumes of mineral resources
So for example
to build more accommodations for our growing population
we’ll require steel
so coal and iron
It will require electrical wiring, so copper
It will require concrete and bricks
It will require industrial minerals
So mining will be the foundation to deliver those
To achieve all these net zero strategies by 2050, which is
the average target that most countries and companies have
we will need to double what has been mined since the antiquity
that represents about 60,000 new mines
Indeed, solar panels, wind turbines, electrical batteries
they do require a lot more diverse minerals
than their traditional counterpart
For example, an electrical vehicle
can have up to six times more minerals
than a combustion vehicle
That makes them on average 340kg heavier
But can we do this without mining?
Well, no, because today
active mines occupy 0.3% of the land surface
and agriculture occupies 40%
But without mining
delivering fertilizer, delivering the tools and equipment
agriculture would use 60%
of the land. So we need mining to deliver
the sustainable resources for all the other industries
and achieve a circular economy

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Scale up circularity for global impact: 3 ways from our data science specialist - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our data science specialist, Diana Goenaga, as she reveals the three steps companies can take to scale up circularity for global impact — and fast track the transition to the circular economy.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What are the three steps that companies can take
to scale up circularity for global impact?
Knowing is being able to act
so the first step is to know
And how do you know
what you should be doing?
First, gather the data
Gather also the skills in artificial intelligence to be able to leverage those data
And when you have done this first step, the second step
is actually to bring meaning to those data
Data is actually only zero and ones
unless you can map them onto what's meaningful for your business
and that's where virtual twins come into play
Because having a virtual twin of your business
actually helps you connect all those data sources that can
come from many different siloed organizations
onto a common referential
It can be as a representation of your company
What are your solutions, your products?
Who are your suppliers?
Who are your customers?
Where are you in the world? And this helps you
bring all elements together to take the best decisions
to have many different perspectives on the topic
You can also run what-if scenarios and simulate
as the consequences of one decision or another
and then you can have the best decision elements
And the first step is to act — just simply act
Today many companies struggle with
Is this is the right way to be more sustainable?
Or not? You know what?
Nothing is sure for sustainability because
we are in an ecosystem
It's a highly multi-dimensional system
where we cannot predict all the fine-tuned impacts
that we may generate, but if we wait that we do
we will not change, so it's a parti pris
Just act when you have the best possible decisions that you can
identify with virtual twin as a support to take the best decision
Collaborate, act and see the results
and when you have the results, you know if you
want to adjust things, it's something that you can do in time also

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Circularity through suppliers, answered by our digital transformation expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Supplier selection can impact the circularity of supply chains. Our digital transformation expert, Karim Fradj outlines how companies can meet their environmental goals through their suppliers — one of many big concerns on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Supplier selection
can impact the circularity of supply chains
How can companies meet their environmental goals
through their suppliers?
So companies can
effectively achieve their environmental goals
by engaging very early with their suppliers
but also by setting up
clear KPIs to work with their suppliers
in a sustainable driven way
So for this, companies need to
early in the development cycle
incorporate and engage their suppliers in order to
make sure that the sustainability goals are
well understood and well incorporated into
the design or the development cycles
Companies need also to set very clear KPIs
within the contract with their suppliers
in order to set clear expectations on what is
expected from the suppliers in terms of
sustainability goals
Companies need also to
join efforts with their suppliers
to work on innovative initiatives and find ways to
improve the sustainability goals
and improve the way circularity is
incorporated into the product
There is also
the possibility of having those KPIs and having those
metrics clearly set in the contract with the suppliers
So we can have incentives
but also we can have
legal obligations when it comes to respecting
those KPIs
We need also, the companies need to
perform regular reviews
performance reviews and give the right incentives to
whichever supplier is aligned with their
sustainability goals

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Turn waste into value: 3 cost-efficient ways from our CPG and retail expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our CPG and retail expert, Mel Creasey, as he reveals how companies can turn waste into the next value source from an enterprise level — one of the many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Describe three cost-efficient ways for companies to turn waste
into the next value source
So there's a clear and growing recognition that waste
is actually valuable
incredibly valuable
As global costs rise and concerns around climate change
biodiversity and resource unavailability grow
increasing value from waste is increasingly vital
The World Economic Forum estimates that
just 20% of the waste created by humans is recycled
and according to the Ellen MacArthur Foundation
when it comes to plastic waste alone
95% of the value remains untapped
While recycling currently
contributes to the fraction of waste repurposing
companies are finding new ways to transform it into
sustainable materials or fuels
The first opportunity is to reduce waste
and minimizing the use of packaging materials
is a key opportunity for consumer goods companies
Simulation capabilities can help to
fully optimize packaging designs
to accurately meet its diverse and often conflicting
design requirements
We've seen advanced
simulation approaches
can unlock 10 to 20%
material efficiency and savings
in existing designs that are already
out in the marketplace
This is simply because simulation is able to optimize designs
much more efficiently than traditional methods
And this 10 to 20%
efficiency is not only an environmental benefit
but it's also an important
opportunity for companies to
improve their margins
It also means that 10 to 20%
less energy is required in the upstream
manufacturing process
The second opportunity
I would talk about is to design for recycling
and this not only means that a design
should use materials that can
be easily recycled
Designers can also ensure
that their design is capable of performing
when it's produced using recycled material feed stocks
and these may have
a higher degree of material variation
due to the nature of the processes
This enables companies to then
source materials from a more diverse supplier base
including high recycle content
and tap into potentially lower cost materials
without compromising product quality
and performance
Designing for recyclability also demonstrates
sustainability to its customers
into investors and partners
so it brings value in that that way
Thirdly, if companies can start to play a more active
and direct role
in the collection of waste products from consumers
They have an opportunity to create
and control higher quality
waste streams that can potentially be valorized
and sold to reprocesses
creating a new value source for them
If these waste streams are not ideally
suited for recycling
then companies may need to think about wider
alternative opportunities
for valorizing the waste streams through repurposing
Waste is increasingly being recognized
as a source of value
and the majority of companies have yet to understand
how to get value back from
products at the end of their life
Innovative thinking and increased collaboration
across the entire value chain
will help to identify new circular solutions that
help to keep these materials in the loop
at end of life
and create new business opportunities that are
not only sustainable
but also profitable

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Improving reverse logistics: Our marine and offshore discusses how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our marine and offshore specialist, Jean Benoit Bensoussan, as he outlines the steps manufacturers can take to enhance their reverse logistics — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
How does green infrastructure, including ports, impact the shipping ecosystem? What steps should companies take to scale up their circularity practices?
More and more ports have engaged in green shipping corridors, meaning collaboration between two or more ports sharing common interests to invest in green technologies to facilitate the shipment of goods.

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Simulation impact question, answered by our aerospace specialist - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our aerospace and defense specialist, Lisa Belkhichane, as she uncovers how simulation helps companies balance circularity, performance and economics — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Share three examples of how simulation helps companies balance circularity, performance and economics.
So the first example is 1D simulation at the system level that is used to assess the performance of the design in its global objective. The second example is 3D simulation, where these proper products can then be assessed during off-design conditions. For instance, we can assess the behavior of a battery during a thermal waterway, or the behavior of a hydrogen tank during the sloshing effects of the liquid hydrogen phase. So, this is how 3D simulation can help to determine the performances of these new products. The third example will be 1D system engineering — not at the product level, but at the value network level, where the system of interest will be the stakeholders, like companies or supply chains. And in this way, we can assess the newly designed products in a global way — to assess correctly its impact in terms of environmental footprint.

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Transforming throwaway economy: Our design expert explains how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our design experience vice president, Anne Asensio, as she reveals what it takes to transform a throwaway economy into a circular one — one of many big questions on the minds of business leaders today.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What will it take to transform a throwaway economy into a circular one? And what is the real value of circularity?
So I would like to state the fact that the throwaway economy is basically our current economy. It's based on the industry's productive linear process. The circular economy is, in a sense, a shift from extraction to the circulation of productive assets, products, materials and anything we do. So basically, what we need to do to actually embrace circularity is to move away from the take, make and waste linear process. And start to embrace the circle of nature because the circular economy is basically mirroring nature, where we are in a symbiotic cycle, and we are nested at the heart of our planet and living systems. And it's the way nature is enhancing and optimizing all systems to bring the highest value; that is to maintain the living species, the living organism and the living system in good health.

So, what circularity would basically bring to a throwaway economy is to be much more virtuous. It's actually to eliminate our way of doing things — waste, to start with. Consider waste as nature does, like food or materials for design. Basically, we need to understand the biological cycle is where nutrients are designed to enter the biosphere safely. The technical materials have to be designed to circulate in the highest quality without entering into the biosphere. So this is really where I see the value of circularity. We know that it's also a system of systems approach, where we can consider people, planet and profit in a very balanced way. So it's really about interrogating the relationship with materials, the extraction, the way we transform those materials into goods, into the way we use them, and, instead of losing them, how we can reuse, maintain and keep them in the highest value in the system. So this is really a dynamic movement. It's about interaction. It's about being iterative and definitely, I would say it will start by changing a mindset.

In addition, the circular economy is, in a sense, restorative and regenerative by design. I'm a designer, so I will give you my expertise as a designer. We call it circular design. We at Dassault Systèmes also use the term ‘design for life’. So, the value and the true value of circularity is really about leveraging the way design thinks, in the way we approach the full economy of value. So we really start by imagining a framework of value that gets much wider than the narrow financial result approach. It's about embracing a much more large and dynamic metaphor instead of just this traditional position. So, it's really about trying to provide value to everyone, as nature shows us, where every stakeholder has a voice in the new framework of value. It's also leveraging scenarios in which the usage is actually enabling us to find and discover new interferences among the stakeholders. Any node and any flow that can generate the potentiality of a new capital flow. This is really a dynamic approach. It's not about technology or engineering solutions. It's about engaging and collaborating all together by embracing a bigger system of systems approach, by understanding the systemic interaction among all of the stakeholders and how we can leverage creativity, collaboration and contribution. It's really about defining a new common goal: The planet and the biosphere as a space in which we're going to have to work.

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Renewable materials question, answered by our innovation expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our scientific innovation specialist, Kai Zhang, as he uncovers what it takes to develop and formulate renewable materials faster — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What are the steps
scientists can take
to speed up development and formulation
of renewable materials?
This is a great question.
When it comes to advancing sustainable materials,
scientists play a critical role
in accelerating progress.
They can employ a range of cutting-edge technologies
to streamline the development and formulation processes.
I'm a chemist by training
and I’ve worked in the lab for over 10 years,
so I know how challenging it is to innovate
new materials and bring them to the market.
We are in a digital world now,
and how scientists can innovate
better and faster
is the question we have always asked ourselves.
Here are some steps
I want to share with the audience.
The first one is
to model and simulate materials.
Scientists can leverage the power
of materials modeling and simulation.
By creating virtual representations of materials
and their properties,
they can significantly reduce the time and resources
needed for physical experiments.
So, they can
conduct better experiments with less resources.
The second step I want to talk about
is to streamline R&D processes through a digital lab.
Most of the innovation starts in the lab.
In today's digital age,
labs can be transformed into digital labs.
It simplifies data
management by centralizing scientific information,
fosters collaboration
through real-time data sharing and
assists in experiment
design and planning.
Workflow automation can also reduce manual tasks
and integration with lab instruments
enhances data accuracy and lab efficiency.
Moreover,
it ensures compliance with regulatory standards
over sample and inventory management
and scales with the evolving needs of R&D organizations.
By optimizing these aspects,
digital labs allow
scientists to focus on innovation
and accelerate their research and development.
The next step I want to talk about is
next-generation formulation design.
To accelerate the formulation development
of renewable materials,
scientists should embrace next-generation formulation design techniques.
New solutions allow for convenient management of data,
materials and domain-specific calculations
to optimize formulations
for cost, efficiency,
reporting and compliance.
Scientists can also use
advanced algorithms and data analytics
to optimize material compositions and properties
to innovate more sustainable-formulated products.
The next step
I want to talk about is definitely
one of the hottest topics in the world today,
which is to leverage AI and machine learning.
Artificial intelligence and machine learning are
very valuable tools in material science.
Scientists can harness these technologies to analyze
vast datasets,
identify patterns
and even predict the behavior of new materials.
This accelerates the development and discovery process.
The last step I want to talk about
is to utilize an integrated platform
for data sharing and collaboration.
Collaboration is always key
in advancing new renewable energies and materials.
Scientists should make use of an integrated platform
which is flexible,
open, global, scalable and agile.
This will facilitate seamless
data sharing and collaboration among researchers,
both within their organization and across institutions.
I think in summary,
from modeling and simulation
to the power of AI and collaborative platforms,
these strategies empower scientists
to innovate more efficiently
and make a significant contribution
to a sustainable future.

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Balancing environmental impact: Our high-tech expert elaborates how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our high-tech expert, Michel Monsellier, as he reveals what it takes for companies to balance materials’ environmental impact against cost, performance and quality — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
The ecological impact of materials is talked about everywhere.
How can companies balance the materials'
environmental impact
against traditional variables such as cost,
performance and quality?
First, what do we consider as a sustainable material?
The most sustainable materials
are the ones that combine multi-level advantages.
These materials are
extracted close to the processing site.
They require a minimal level
of energy to be transformed,
and they are durable and recyclable.
Unfortunately,
all these conditions are very challenging to meet.
Material selection often ends up with trade-offs.
Recycled materials often also mean
lower expectations in the new part’s mission,
which is what we call downcycling,
due to some
partial loss of quality that may be visual aspects,
optical qualities or mechanical properties.
Here also, virtual twins are enablers
to be able to assess and
understand the impact of materials,
and best way to get
the maximum value out of them for a longer time
from a global perspective.

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Circular mining strategies, revealed by our energy and materials expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our infrastructure, energy and materials expert, Delphine Gondoin, as she highlights how mining companies can extract, process and transport metals and minerals for lower environmental impact while retaining profits.

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#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Give three strategies of how companies can extract
process and transport
metals and minerals
to lower their environmental impact
and retain profitability
for better future-proofing
This is a good summary of what we've discussed so far
to ensure all that
Companies will need to develop several strategies
They will need to develop
a traceability of the resource from the pit
to the customer
and through their transparency
They have
a certain trust that they can build
for themselves, for their decision making
for their customer to know where the products come from
And for the end buyer
who will be able at some point to say
I will buy this smartphone instead of this one
because the 60+ minerals
that are composed within this smartphone
have been sourced more sustainably
Another way would be to build a certain visibility on
the sustainability KPI
This will ensure accountability of the company
This will provide a certain pressure for companies
to do well, to do a lot better, to reach for
For example, 100% of water circulation
or to reach for maybe 100% of renewable energies
The third strategy that I would put in place
is a certain openness to external audience
In the past, mining companies would
provide information to their external stakeholders
Now, companies need to involve them in the decision process
Companies need to give them
access to information in their own terms
Not just organized sessions
where they share information
They need to give stakeholders access in their own terms
and they need to involve them in the decision making
So local populations, local NGOs and local governments
they need to be able
to have their say in the way operations are run
because that will allow them to trust
that the company is doing the right thing
doing the right thing for the country and for them
And this will provide them the license to operate
that is currently taking a really increased role in mining operations

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Designing for circularity: Our CPG and retail expert reveals how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our CPG and retail expert, Mel Creasey, as he reveals how companies can design for circularity through life cycle assessment tools and molecular modeling — one of the many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
For manufacturers looking for
economical ways to incorporate circularity
which technology developments can help them to get started?
And can I share a success story?
So technology is advancing all of the time
and there are some
great developments that
can support manufacturers when looking
to design for circularity
First off, it is important to say that design
is a key step towards a circular economy
and in helping to move away from linear processes
to a more circular system
For materials, 80% of environmental impacts
are determined in the design phase
Packaging should be designed in a way that facilitates
either multiple reuses or efficient recycling
used early in the design phase
Lifecycle assessment tools
enable the packaging design teams to quantify
the environmental impact
of new packaging concepts
across the entire value chain
Thus, helping them to make
well informed decisions about material choices and
potential design routes and ensuring that sustainability
and circularity are fully evaluated
at the right time
I would also call out the molecular modeling
of new sustainable materials
to replace some of those problematic materials
is a crucial technological advancement
in the race to reduce plastic packaging
or to improve recyclability performance
One of the biggest challenges
the packaging industry
is working to address
is how to move away from
laminated plastic flexible packaging
to more environmentally friendly
flexible materials such a paper
And at the same time, retain
the levels of product quality
through moisture and oxygen protection
There's been significant
research and development efforts
to innovate with new coatings
barriers to solve these problems
Modeling these new materials
continues to be
an important capability
that's helping companies to create solutions
Regarding success stories
I won't name names but there are
a number of companies out there who
have successfully developed new coating solutions
They're already producing
paper-based flexible packaging
materials that have amazing barrier performance
and they're also easy to recycle
The development of these new coatings
have been greatly facilitated by the advancements in
molecular modeling technology

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Sustainable material pitfalls: Our marine and offshore specialist explores how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our marine and offshore specialist, Jean Benoit Bensoussan, as he explains ways to overcome challenges in incorporating eco-friendly materials — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/recyclable-materials

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What pitfalls should companies look out for when incorporating eco-friendly materials? How can they overcome them?

Shipbuilding is a century-old industry that follows many rules and regulations. Every ship is classified and certified by a classification society. Those societies, those companies, they certify every component of a ship. This is why ship owners, shipyards and ship designers are sometimes reluctant to invest in new, innovative materials because they would have to demonstrate that this new material and this new component meet the same properties as the existing ones. To do that, they will have to go through heavy test campaigns like corrosion analysis tests or fatigue tests. However, some of those classification societies have invested in certifying new manufacturing processes like additive manufacturing, and thus, they are certifying new critical components on both ships, such as propellers, or the injection nozzles on the engine, which have already demonstrated that by being manufactured, thanks to those new processes, you are able to save significantly on carbon emissions.

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Cities role in circularity: Our cities and public services expert unveils how - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our cities and public services specialist, Ismail Hamoumi, as he describes the crucial role cities and regions play in fostering a circular economy — one of many big questions on the minds of business leaders today.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Why are cities and regions expected to be pivotal
in the circular economy agenda?
This is an excellent question.
Cities are indeed key drivers of the circular economy.
Urban areas represent today 3% of the earth's surface
but 70% of greenhouse gas emissions.
Also, two-thirds of total energy demands
and 50% of waste generation come from cities.
Globally, cities are
still striving to achieve Sustainable Development Goals (SDG)
to become more inclusive, safer,
more resilient and sustainable.
To ensure this goal,
the circular economy is a major lever
to achieve more carbon-neutral activities.
In circular cities,
everything operates within
an interconnected network of systems that are designed
to eliminate waste and pollution,
circulate products and materials
and also regenerate nature.
To ensure that the circular economic model
becomes pervasive,
cities and regions have an essential role.
They are at the center of key decisions.
A necessary governance must be in place in this regard
to create incentives,
set up regulatory frameworks,
simulate innovation and generate information.
To implement the circular economic agenda,
cities and regions can intervene in four key aspects.
The first one is to promote the circular economy.
Cities can become role models
by implementing circular economy initiatives.
To do so,
they need a clear strategy.
They also need to establish goals and targets
and they need to raise awareness.
The second one is to facilitate connection and dialogue.
In this regard,
they need to establish multi-level governance
to develop a circular economy policy
and also to foster the local circular economy networks.
This will facilitate
the collaboration among stakeholders.
This is also going to initiate behavioral changes
and exchanges between the different actors.
The third point is to enable
appropriate governance conditions.
Indeed, cities and local public actors need to define
a regulatory framework
which is going to support them
in mobilizing new financial resources
that are going to develop their capabilities
in getting different sources of finance
and also, in supporting local innovations.
And the last point is to encourage innovative approaches.
To date, the circular economy
has been characterized by practices that have been
primarily focusing
on economic connections
between different industrial actors.
A root revolution is underway
with the digital transformation
because the collection
of standard data
on all resources and all elements of the chain
is going to support
this sharing economy and the use
of digital platforms that are going to facilitate
the collaboration between stakeholders
and also the creation of new economic relationships.

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PLM alone is not enough to go circular. Our manufacturing expert reveals why - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Companies want to reduce the environmental impact of manufacturing goods, but it’s said that PLM alone is not enough. Our manufacturing expert, Hrishikesh Mohan, explains why — and what else companies need to go circular.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Companies want to reduce the environmental
impact of manufacturing goods, but it is said that PLM
alone is not enough. Why?
And what else do companies need to have in place?
So PLM or product lifecycle management is
a valuable tool that companies
use to manage their products from design
to manufacturing to distribution to consumers
as well as add ultimately to the end of life
Sustainability is concerned not only
with the product lifecycle
but it is also concerned with
the environmental impact
when it comes to the users or the consumers, the industries
the economies, the environment and so on so forth
So it's more of a broader
view of the environmental impact
from
compared to the PLM strategy
Where PLM diverges mostly is when they often fail
to take into concentration
the whole life cycle cost, and the environment footprint of the product
In order to kind of have a more holistic
approach when it comes to sustainability, the PLM system
needs to be tightly integrated into the LCA tool
That means it actually kind of gives you
the environment impact on the decisions you are making
while you are actually in the design process
You need to kind of have
the sustainably information coming from
supply chains
your operations, etcetera, so that
like there is a saying that
80% of the products in a pack
is influenced by decisions actually made at the design state, so
if the decision making
individual actually has
access to the information from the PLM system
with respect to the supplier, the operation or
the way in which the product is
made and is distributed to the consumer
and also the end-of-life aspect of the product
He is able to kind of make those decisions
upfront and significantly
reduce the impact on the environment
So PLM systems, which are the core
for the products life cycle management
need to have that information
So it's not the traditional PLM approach
It's a PLM approach
which includes all the sustainability information
coming from a variety of different sources
That means your PLM system should be integrated
into all these data sources

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Greening the pharmaceutical lifecycle: 3 examples from our life sciences expert - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Check out our life sciences and healthcare expert, John McCarthy, as he shares how technology can help ingrain innovation and circularity across the entire pharmaceutical lifecycle.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
What kind of technology can help
ingrain innovation and circularity
across the entire pharmaceutical lifecycle?
Do you have any examples?
So I think this is an area where
recognizing that scientists and engineers thrive on
solving difficult problems is paramount
Scientists and engineers love to look at new approaches
and dig into data to understand how to solve problems in different ways
By giving them easier access to both technology and to data
innately those scientists are going to address sustainability challenges
and we can help them in a number of different ways
First making data
and calculations easily accessible
as they are designing the manufacturing process
Access to things such as green chemistry calculations
process mass intensity and alternative green solvents
allows scientists as they're planning their
work in their electronic lab to simplify that task
and find the things they may not have thought of originally
Secondly, lifecycle assessment tools
and data that allow scientists to compare different approaches
to the entire manufacturing process of a drug
is allowing chemists, bioprocess teams and engineers to understand
What is the specific steps in this complex process
where I can make an improvement
that is going to have the greatest impact on sustainability?
And they can actually compare
two different ways to make the same product
to determine which one is more sustainable
based on a number of different sustainability metrics and factors
And finally, learning from other industries
such as consumer packaged goods
where the circular economy has really been driven strongly
And how they're using modeling and simulation
to improve the sustainability of packaging
Often within the life sciences space
packaging is sort of the last thing people think about
but looking at what consumer package goods companies do
to understand how to deal with
the primary secondary
and tertiary packaging of a medicinal product
This is an area where we can make
huge strides in the amount of waste that's put into landfills
and learning from what other industries have done

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Product lifecycle: Our supply chain expert reveals critical areas of focus - #DassaultSystèmes

Dassault Systèmes 2024-04-08 | Tune in to our supply chain and logistics specialist, Carlijn Goedhart, as she explains which areas of the product lifecycle should companies pay special attention to and why. Hint: It's not just product design that matters.

3ds.com/sustainability/circular-economy/circularity-action/product-design

#CircularityHow #CircularityInAction

👁️‍🗨️Transcript of this video:👁️‍🗨️
Which areas of the product lifecycle should companies
pay special attention to and why?
Yeah, so in my opinion that
should definitely be the manufacturing phase
but let me further explain after saying this
So in the circular economy, we have to keep
circulating our materials, products and materials
stop using virgin materials and eliminate the
concept of waste
And by doing that
the materials we have right now become more valuable
and also, it also means that there is only
room for purpose driven products
So the products that really
add value to our lives
So back to the question
early asset manufacturing
but it differs a little bit per product
and to really know we should
apply life cycle assessments
to know which phase has the biggest environmental impact
But in general
for example, aircrafts are polluted most in the use phase
while electronics, for example, your mobile phone has the
most impact in the manufacturing phase
and actually, that is for most of our products the case
And that may be an eye opener
but that's because in a use phase, it's most feasible in our day to day lives
And actually, it's only the tip of the iceberg
We often talk about
energy and CO2 emissions
while in the manufacturing phase
It's the hidden impact
It's about land use or water use or things like that
For example, television, watching television
has much less impact than the
materials that I need to be extracted and mined
to manufacture
all of these components
So companies can actually
make a huge difference
by improving their manufacturing processes
And at the same time, customers have a lot of power too
by deciding to buy these products or not

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