Hive Energy was started by Giles Redpath in 2011 to supply green energy to the UK. Since then, we have been growing, learning, and developing a stream of new and innovative technologies to help fight climate change.
Hive works across the globe. After much success in the UK we have expanded our green energy pipeline. Our expert team have developed an international pipeline of solar (photovoltaics), green hydrogen, wind, and green ammonia projects. Hive Energy is committed to taking the knowledge and expertise it built in the UK to develop low-cost, large-scale renewable energy projects across the world.
As well as the adoption of new technology in the renewable energy field, Hive is committed to contributing to the circular economy. Our team are increasingly reaching new countries and our Country Managers are expanding on their locations to offer green solutions as far and wide as possible. Our projects, partners, or HQs are now established in over 20 countries.
This is wonderful guys, this is what I love seeing in my country. I hope you guys are capturing every moment of the construction, it would be nice seeing how the plant is built, and what the local businesses are saying about their economy growing from the construction people using their services. SA will rise once again, thank you Hive.
Sir, I like what you are doing. There is a vast differenc in raw charcoal and Biochar. What do you inoculate your charcoal with. It of course will eventually be a great soil amendment in i'ts raw state.
So what; all hydrogen stocks suck and will continue to suck until electrolyzers are conceived, designed, and built that can produce millions of tons of hydrogen per annum. Right now, this is not even close to possible and there is not one shred of evidence by alkaline cell, PEM, SOEC or any other electrolyzer design that it will be possible in the future. Hydrogen electrolyzers and fuel cells are total nonsense in India and everywhere else, the "Hydrogen stocks" are hopeless losers because none of the electrolyzer companies can deliver industrial-scale capacity. They only offer small-scale electrolysis capacity, so they can't provide anything but small-scale revenue. Small-scale revenue will never eclipse their operating budget, so they cannot show a profit (earnings). Small-scale electrolyzers cannot make enough H2 from water to reduce CO2 output at an industrial scale, so they are irrelevant. Renewable energy is coming on line quickly, but to reduce global warming, one must decarbonize all of the greenhouse gas emitting sectors -- transportation, agriculture, residential & commercial building and industrial sources (primarily concrete, glass, steel and industrial chemicals). That means we must create decarbonized fuels such as green ammonia, whereby we take cheap and abundant renewable energy and split water into cheap hydrogen and oxygen. Then, humanity can remove nitrogen from the air (air is 78% Nitrogen) and, using the Haber Bosch method, combine the green H2 and N to make green ammonia (NH3). Ammonia, as a "liquid carrier of hydrogen fuel," can carry more hydrogen/BTUs by volume at a reasonable temperature and pressure than gaseous or liquid hydrogen. Large-scale electrolyzers (no existing electrolyzer manufacturer can provide) would allow green ammonia to fuel and power all greenhouse gas emitting sectors. When electrolyzers are scaled to provide ammonia-scale plants producing four million metric tons of anhydrous ammonia per year, replacing methane feedstock; call me. It is important to realize that to produce one ton of ammonia using today's methane "steam reformation process" conventional ammonia producers for nitrogenous fertilizers release 2.84 tons of CO2.
