PROJECTS
PROJECT DETAILS
Current levels of greenhouse gases in the atmosphere are already sufficiently high to carry the climate system past significant tipping points. To keep global warming to less than 2 degrees above pre industrial levels, developed nations need to decarbonise their economies by 2030.
To use tried & trusted technology in combination to deliver clean energy & atmospheric carbon removal.
An example of this linking of industrial processes to further C02 removal can be seen in the Kalundborg Symbiosis. This is a partnership between nine public & private companies in Kalundborg, Denmark.
The combination & linking together of industrial processes if implemented at a global level, would create a carbon negative energy supply chain that would go some way to solving the energy, food and water trilemma.
PROJECT DETAILS
The project would follow the Kalundborg Symbiose method and use available technologies & companies to deliver clean energy, whilst returning waste products from the process to the environment from whence they came, to be used again & again in this circular production that is powered by inexhaustable renewables.
The Sahara Forest project is also an example of using available renewables to not only grow foodstuffs but also extract C02 & provide employment & wealth creation in regions where little or no value was seen in the local environment.
How to bring industrial processes to bare on the problem of climate change is frought with difficulties, but the answer to the problem is within our own hands
PROJECT DETAILS
For renewables to meet global demand and economies of scale, renewables must become liquid. There are only two liquid fuels known to science which contain zero carbon, Ammonia (nh3) and hydrogen. Ammonia (nh3) liquefies at -33 centigrade, liquid hydrogen involves a huge energy penalty requiring -253 centigrade to liquefy. crucially Ammonia (nh3) holds 70% more hydrogen by volume than liquid hydrogen. Ammonia (nh3) is five times more efficient than compressed hydrogen as a hydrogen carrier.
These physical attributes combined with the existence of global ammonia (nh3) safety standards and market infrastructure make ammonia (nh3) a compelling solution.