The world of renewable energy is making rapid progress amid this major energy transition being experienced worldwide. Now sustainability has entered the architectural sector, because for some time now we can see all kinds of innovators and projects aimed at caring for the environment in this sector that wants to become one of the most favorable in terms of energy.
An important advance in the architectural sector
Currently, Egypt is one of the countries most prepared for the devastating effects of climate change. Now it creates large buildings with energy-driven structures using renewable energy sources such as wind or solar photovoltaics. However, a new project is aimed at generating electricity from hydrogen.
We are talking about a gigantic building that wants to get all its energy from renewable sources such as hydrogen and photovoltaics. This initiative comes from the idea of forgetting about the pollutants and harmful greenhouse gases that are created when producing energy fossil fuels. This building therefore makes every effort to become independent of the traditional electricity grid.
It is important to mention that the need to acquire new and more efficient ways to generate energy without polluting emissions has become one of the major priorities of various industries. For this reason, the plan you have Magnom properties called Forbes International Tower, It mainly focuses on caring for the environment.
Learn all the details of this great innovation
Some of the main features of this project are that it is a 43-storey building full of offices, in other words, it is a 240-meter skyscraper that will run exclusively on photovoltaics and hydrogen. To be specific, the Forbes International Tower project will work with a 25% photovoltaic energy and a 75% with hydrogen.
In this way, the connection to the electricity grid would be completely eliminated and the building would be self-sufficient in terms of electricity. In addition, the architectural plan focuses on reducing the carbon footprint, and this would be achieved through the use of low-carbon materials. This latest decision alone would reduce the carbon footprint of this building by 58%.
This promising system would also have a dedicated water recycling and treatment strategy to avoid the need for increased demand for fresh water. It is important that we remember that access to drinking water represents a major conflict in Egypt, as this is a very scarce resource in the country in question. This would also be a plea in favor of the plan for this colossal building, because it would also provide drinking water.
How is hydrogen implemented in this area?
Hydrogen is one of the most demanded materials in recent times due to its easy and successful application in various energy projects and its extensive list of environmental benefits. However, using this component in the architectural sector can be a real challenge as it is a completely new field.
The use of hydrogen to reduce pollutant emissions from buildings can be somewhat controversial, and this is due to the fact that the application of hydrogen H2 in architectural constructions It has not been tested before and many scientists doubt the scalability that H2 can have to meet the current demand for energy that normally comes from traditional sources.
In addition to the conflicts that this project may entail, it is important to mention and emphasize the great potential of the architectural plan, as it would motivate more and more entrepreneurs to create similar structures equally beneficial to the environment.