Katana VentraIP

100% renewable energy

100% renewable energy is the goal of the use renewable resources for all energy. 100% renewable energy for electricity, heating, cooling and transport is motivated by climate change, pollution and other environmental issues, as well as economic and energy security concerns. Shifting the total global primary energy supply to renewable sources requires a transition of the energy system, since most of today's energy is derived from non-renewable fossil fuels.

Research into this topic is fairly new, with very few studies published before 2009, but has gained increasing attention in recent years. The majority of studies show that a global transition to 100% renewable energy across all sectors – power, heat, transport and industry – is feasible and economically viable.[6][7][8][9] A cross-sectoral, holistic approach is seen as an important feature of 100% renewable energy systems and is based on the assumption "that the best solutions can be found only if one focuses on the synergies between the sectors" of the energy system such as electricity, heat, transport or industry.[10]


The main barriers to the widespread implementation of large-scale renewable energy and low-carbon energy strategies are seen to be primarily social and political rather than technological or economic.[11] According to the 2013 Post Carbon Pathways report, which reviewed many international studies, the key roadblocks are: climate change denial, the fossil fuels lobby, political inaction, unsustainable energy consumption, outdated energy infrastructure, and financial constraints.[12]

certain forms of (flexible) [137] such as biomass (including forms of pellet fuel, woodchips, algae fuel/bioreactors, and biomass grown on land formerly used for meat-production) or hydroelectricity

dispatchable generation

diversification of (nonsynchronous) renewables[137]

[138]

[137][139] (due to foreign unique capacities/resources for generation and storage) and strengthening interconnections[14] and larger grids in general (due to differences in weather or daytime)

super grids

curtailing excess generation and power-to-X (e.g. producing green hydrogen immediately when there is abundant energy)[14]

[137]

to reduce energy storage needs[140] or potentially as dispatchable energy via in-reservoir storage[141][142]

Geothermal energy

oversizing solar and wind capacities

[14]

Demand response

[148]

the energy demand

the intermittent wind and solar energy supply predicted with a 3D global climate / weather model GATOR-GCMOM

[203]

the hydropower, geothermal, tidal and wave energy

Carbon bubble

Carbon neutrality

Energy transition

Individual and political action on climate change

International Renewable Energy Agency

Nuclear power proposed as renewable energy

Timeline of sustainable energy research 2020–present

by Renewables 100 Policy Institute.

Go 100% renewable energy

—Education and Leadership of the transition to Net Zero fossil fuel.

Net Zero Foundation

Renewables 100 Policy Institute

Global 100% Renewable Energy Platform

Global 100% Renewable Energy Campaign