Add to ORKGThis paper explores the reality of a gigantic photosynthetic surface with the goal of fulfilling thehuman species energy requirements. We determined that an area of approximately 3000 km2 would suffice in producing enough energy to power the planet for 1 year. Via a comparison to solar panels we suggest that this area or perhaps even smaller covered with modern solar panels could truly power the planet. However further research into this is certainly required
Of all of the sources of renewable energies available one can argue that the most abundant and acces...
The sun could meet all our energy needs, if we could store its energy as chemical fuel
The solar resource is immense, but the power density of light striking the Earth's surface is relati...
The sun has given light to the Earth since the formation of the solar system 4.6 billion years ago, ...
Demand for energy is projected to increase at least twofold by mid-century relative to the present g...
This review article considers Earth as an energy-storing (photosynthetic) and energy-consuming (meta...
The paper looks at the possibility of retrieving energy from rain and how the energy collected compa...
This technical book explores current and future applications of solar power as an unlimited source o...
The Earth receives around 1.9 x 106 EJ of energy in visible light each year but only a fraction of t...
AbstractThe global energy consumption and in our country is increasing. The bulk of world energy com...
Global energy consumption is projected to increase, even in the face of substantial declines in ener...
SummaryAdvances in photosynthesis research may help to find new ways of reconverting carbon dioxide ...
If solar energy is to become a practical alternative to fossil fuels, we must have efficient ways to...
Mitigation of man-made climate change, rapid depletion of readily available fossil fuel reserves and...
The intensity of solar radiation in the Earth's direction from the Sun is approximately 1.361 kW/m2,...
Of all of the sources of renewable energies available one can argue that the most abundant and acces...
The sun could meet all our energy needs, if we could store its energy as chemical fuel
The solar resource is immense, but the power density of light striking the Earth's surface is relati...
The sun has given light to the Earth since the formation of the solar system 4.6 billion years ago, ...
Demand for energy is projected to increase at least twofold by mid-century relative to the present g...
This review article considers Earth as an energy-storing (photosynthetic) and energy-consuming (meta...
The paper looks at the possibility of retrieving energy from rain and how the energy collected compa...
This technical book explores current and future applications of solar power as an unlimited source o...
The Earth receives around 1.9 x 106 EJ of energy in visible light each year but only a fraction of t...
AbstractThe global energy consumption and in our country is increasing. The bulk of world energy com...
Global energy consumption is projected to increase, even in the face of substantial declines in ener...
SummaryAdvances in photosynthesis research may help to find new ways of reconverting carbon dioxide ...
If solar energy is to become a practical alternative to fossil fuels, we must have efficient ways to...
Mitigation of man-made climate change, rapid depletion of readily available fossil fuel reserves and...
The intensity of solar radiation in the Earth's direction from the Sun is approximately 1.361 kW/m2,...
Of all of the sources of renewable energies available one can argue that the most abundant and acces...
The sun could meet all our energy needs, if we could store its energy as chemical fuel
The solar resource is immense, but the power density of light striking the Earth's surface is relati...