Andorra is a landlocked principality sandwiched in the Pyrenees between France and Spain. As such, it cannot produce hydrogen by electrolysis of seawater. However, it does have a Secretary of State for Energy Transition, Transport and Mobility.
Category Archives: Energy
Algeria
As of 02/17/2026, the government has a website dedicated to renewable energies and energy efficiency. However, it appears to prioritize solar energy. Hydrogen is not discussed.
Albania
As of 02/17/2026 the Ministry of Infrastructure and Energy does not show a dedicated website on green hydrogen. White hydrogen found in Albania.
Afghanistan
Afghanistan is a landlocked country in Asia. As such, it cannot produce green hydrogen by electrolysis of seawater, and the government does not provide information about hydrogen.
White Hydrogen
A U.S. Geological Survey has determined that substantial natural reserves of gas hydrogen exist throughout the world that could potentially meet global energy needs for several hundred years. Although some technological questions remain to be resolved, in view of global warming and its deleterious consequences, it seems a concerted coordinated … Continue reading
Hydrogen as a Peacemaker
The idea of using solar (or geothermal) energy and seawater to mass-produce green hydrogen by electrolysis, burn it and add gravity to generate a surplus of electricity and freshwater, even far from shore (which desalination cannot do), is feasible, practical and necessary. Indeed, it is a seismic proposal, in more … Continue reading
How Much Land Needed to Install a Solar Plant with a Capacity of 11.1 GW?
Question: Assuming that virtually unlimited flat land is available in a desolate desert, how many square kilometers would be required to install a solar plant with a capacity of 11.1 GW? Answer: Here’s an estimate of the land area required for an 11.1 GW solar plant, along with some important … Continue reading
How Much Solar to Produce 611,800,000,000 kg of Hydrogen/Year?
Question: Given: a recent breakthrough of researchers at the University of Adelaide has yielded an electrolysis process that is 100% efficient with a catalyst that prevents the anode and cathode from decay; the amount of hydrogen desired is 611,800,000,000 kg per year; the temperature of the seawater is 60 degrees … Continue reading