Auto desk wholesystem
and life cycle thinking
1, It is extremely important to have a clear and specified problem statement
in the view of the entire system before considering about the final solutions .
The whole system and life-cycle, contains material selections and manufacturing
the product, user’s experience, and disposal.
2,To optimize
the environment performance, it is crucial to consider the impact of the life
cycle of the products with different aspects of criteria.
3, When it
comes to design improvement, sticking on optimizing the little part of the
system is not really a wise choice, It is better to reset our scope to the
entire system to figure out the which parts play the key roles to enhance the
system performance.
In conclusion,
The video does give us a clear instruction about a better and reasonable way of
designing a sustainable solution, a good designer is suppose to have a broad
viewpoint and abilities to analysis and balance all the different factors which
have impacts on whole system and life cycle to achieve the efficiency maximization,
not restricting by the certain part of the system.
Lightweighting
1. Lightweight has a strong
connection with sustainability of the product, since use of less material in
manufacturing will contribute to less negative impact from production to disposal,
also lower expenses.
2. There are
strategies to reduce material usage, for example, replacing crucial sections by stronger and lighter materials, hollow parts in steel structure, placing ribs in plastic to optimize
geometry and structure for lightweighting.
3. There are
further strategies to reduce the material, like sharing the product by many
people, extend product’s lifetime, using recycled components or replacing the
physical objects with digital components.
In conclusion,
lightweight solution for is really a good sustainable strategy to optimize the
product, it will beneficial to reduce the pollution for raw material producing,
optimizing transportations simplicity and portability, enhance user experience
and reduce overall cost to produce a single unit.Although, there are enormous
benefits to apply lightweighting to the products,we should always keep in mind
is before we apply any lightweight methods, it is quite essential to use the
simulation tools or other analysis technic to ensure the reliability of the
lightweight method.
Green
material
1, The utilize of green material make effort to reduce the environmental
pollution and energy consuming.
2 , Green material also involved in the factors like embodied energy of the raw
materials, toxic bi-product and emissions during manufacturing and good
end of life option.
3, Look at the cycle
impact of the whole system for a certain green material.
In conclusion,
It is always best way to find an appropriate material by taking
consideration of whether the material is abundant,, non-toxic, energy saving,
property guaranteed and affordable. Moreover, the recycle material perhaps a
really good option in the design, for example, embodied energy of a recycled
aluminium is 90% less than production of virgin Aluminium metal.
Improving
product lifetime
1.Improving product life is a excellent method to take best advantage of the
energy and material into the product
2, To maximize the product life time, we can improve the
durability of the product or make it simpler to rebuild or upgrade with
disposal material,(more recyclable).
3. The concept of
sustainable reduces the use of raw materials and reduce waste at land, through recycling, reusing, and repair;- and the hope
to stop extracting resources and zero contents to the landfill.
In conclusion,
this video give us a good concepts about what criteria of lifetime is required
for a good design, some product need to be physically or stylistically durable
to minimize the energy and material consuming, like the electronic devices,
cars and so on, but on the other hand, the stuff like food container should
have a good recycle-ability and biodegrade easily and harmlessly.
Greenfly
1. Transportation requires lots of energy, especially between a long
distance shipping.
2. Water usage in production is high compared transport and use
of the product.
3. Recycling is an efficient and eco-friendly way to reduce
solid waste and reserve energy.
In conclusion, for a
designer, we should develop more solutions to reduce energy, water usage and protect
our environment as well as communicate environmental sustainability
considerations of my design.
Energy efficient design
1.Understanding energy flow chart of the entire system, the major energy
loss is during the energy conversion.
2. Loss of energy in heat, friction and fluid flow can be
optimized by a good design with reasonable physical and mechanical structure.
3. Sustainable design using efficient energy, saves – time,
cost, material, and the product will reap higher performance.
In conclusion, it is essential for the designers or engineers to think more
carefully about energy system of their design, like heat, friction and fluid
flow,
because if any product has really poor efficient, it will lead to more
consumption of the coals, in sense of more energy loss in the procedure.
