Now, think a little bit more about how The Interceptor might work. Imagine you are given a piece of PVC pipe, some plastic bottles, and some nets. Think like an engineer: How would you use these materials to develop a model of The Interceptor to demonstrate how the barrier worked on a small stream?
One possible approach would be to use the PVC pipe to create a frame structure that mimics the shape of The Interceptor. The plastic bottles could be attached to the frame to represent the floating barrier, while the nets could be used to simulate the collection system.
First, I would cut the PVC pipe into appropriate lengths to create the frame structure of The Interceptor. I would then connect the pieces together to form the overall shape, ensuring it is sturdy and stable.
Next, I would attach the plastic bottles to the frame using zip ties or glue, ensuring they are spaced out evenly to create a continuous barrier along the stream. The bottles could be filled with water to mimic their buoyancy in a real-life scenario.
Finally, I would use the nets to create a system for capturing and collecting the plastic waste. The nets could be secured to the frame and positioned to intercept the floating debris as it passes through the barrier.
By demonstrating this model on a small stream with simulated plastic waste, I could show how The Interceptor effectively captures and collects debris, preventing it from entering larger waterways and oceans. This hands-on approach could help illustrate the practical impact and benefits of using such technology to combat plastic pollution.