Our team was formed with aspirations of reducing climate change, using already available technologies in an eco-friendly and sustainable way. With hopes of eliminating a main cause of climate change, mainly Carbon dioxide concentration in the oceans and in atmosphere in general, the team concluded that the photosynthetic properties of phytoplankton could be an ally to our cause, should we achieve mass production. The idea is that we would construct phytoplankton farms in the oceans near the coastlines of areas with high fossil-fuel related emissions, where the plankton would absorb the CO₂ transferred by the current and photosynthesize, reducing the overall amount of CO₂ whilst emitting Oxygen. The species of phytoplankton (Prochlorococcus) which would be used is the most abundant in the oceans, it thrives in tropical and subtropical locations near the equator and is responsible for 60% of the Oxygen in our atmosphere. With this logic in mind we searched, analyzed and located the ideal spots for our facilities to not only maximize the reproduction rate of our phytoplankton but also to be at the chokepoint of as many CO₂ transferring current as possible. What makes this project unique is that the waste of the Plankton will be collected twice or three times a day and separated in its lipids/oil and sugars, which in turn will be sold as biomass and other bioproducts. The estimated annual earnings from the aforementioned activities outweigh the maintenance and personnel expenses; this in turn means that the constructions costs will be covered in the first 5-10 years of operation. As far as the construction is concerned, it consists of floating cylinder with a radius of 180m and a height of 5 meters (2 above and 3 below the sea-level), a nanoweb which will allow the flow of the water, giving the plankton all the nutrients, it needs without disturbing the ecosystem. Outside the nanoweb will be placed a mix of stainless metals that will aid in the protection of the web from the sea creatures and the momentum of the currents. This momentum will be used to turn the waves’ kinetic energy into electric energy to power our facilities, using wave thrusters that will be on the wave-breakers. In addition, in the farm there will be placed solar and wind panels, that will furthermore aid in satisfying the energy needs. All things considered, our project is a phytoplankton farm that uses the most efficient species to maximize CO₂ absorption and O₂ emissions. The farm covers for its energy needs using renewable energy sources such as kinetic solar and wind, while also making economic benefits from biomass distribution in the market. S.T.P believes firmly that the prototype has potential to help stabilize the climate and reduce the rate at which it deteriorates. We are convinced that the production of 100-1000 of these farms could be a driving factor of climate improvement since a noticeable part of CO₂ emissions could be absorbed by our facilities, providing us with products and profit.