Architectural engineer working on a smart grid project
A smart grid installation engineer has created a “smart fence” using the latest advancements in 3D printing and digital fabrication.
In this article, Benoit Bensouda explains how he created the 3D printed fence using an electrostatic charge.
The 3D printable fence has the ability to capture energy from electricity, so it can be attached to a wall to store power.
Bensoudan said the fence is made of a combination of metals, plastics and other materials.
The 3D printer allows the materials to be 3D-printed with high accuracy, he said.BENSOUDA: I was searching for the most durable material for a smart fence.
I started to explore the use of metals and plastics, but it didn’t seem to work well, so I started looking for the best way to make this fence.
This was a big step because the material was not very stable, and it would only last for 10 or 20 minutes.
The only problem is that it would be difficult to remove the material without damaging the material, so that’s the reason why I decided to make the fence using the current technologies.
The current technology that I use for this is electrostatic levitation, which means that the 3d printed fence will levitate by electrostatic force, but because it’s a 3D model, it can’t levitate in the air, so the only way it can levitate is by levitating in the wind.
BENSOUDERA: The electrostatic attraction forces will be enough to create an electric field, but the wind will have to be released.
The wind will push the materials up, but this forces them down.
The whole process is very simple, but there are a lot of problems that you have to deal with, including friction and vibration.
The material can also become brittle, so you have the possibility to damage the fence.
But if you take a look at the design, the whole thing is simple.
BENOUDASOUD: So I think it’s really simple.
The technology is already there, it’s just not used.
We already have smart fences.
We can use it to build smart fences in the future.BENOUDER: The technology has already been applied to a lot more projects, but we haven’t seen a smart-home system that could work.
The problem is, when you make a smart device, there are many different parts that need to be connected together.
And you have many different devices and so on.
So we need to design a smart system that works with all these different devices.
I have been working on this project since 2010, and we have created many projects that have worked well and now we want to use them to improve the technology.
The main issue is that there are so many different technologies that you need to connect, so we need a system that will work with all of them.BENGOUDOU: This project is an example of the work that has been done by Bensoulas team, which includes a PhD candidate and a PhD student.BENTOUDSOUDIN: Benoit was a PhD researcher from the Université de Montpellier, which is the same university that is building a smart home.
He’s a mechanical engineer, and he worked on this smart fence, and I think the next generation of smart devices will be more connected.
BENTOUDAR: So we are not in the dark about these technologies.
And the more connected we are, the more sophisticated we are.
BENGOUDSoudas team is focused on building a 3-D printed smart fence that will be able to capture the energy from the wind, collect it in a smart battery and store it in the wall.BENTSOUDAB: We want to develop a smart energy system that can capture energy and store the energy in the environment, and then store it, so if the wind blows again, it will go back to the wall again.
This is the main feature of this technology.
BEDOUSOUDI: We’re building a project to build a smart house with solar panels and batteries.
In the future, we hope to build the smart home with smart panels.
This project has been very promising, and in addition to the solar panel and battery, we have a smart wall system that is able to collect the energy.
BETHANOUDISOUDN: This fence is very different from the other smart fence in the project.
The first fence was made with materials that were too weak.
We need stronger materials, and our research is continuing.BEDOUDENSOU: The new design of the fence allows the electricity to be captured.
We are building a new 3D product to be able capture the power and store that in the battery.
It will be a new generation of energy storage.BETHANOSOUDBENISOUDS: The next generation is going to be based on