Klaus S. Lackner scite author profile

Stabilizing the carbon dioxide–induced component of climate change is an energy problem. Establishment of a course toward such stabilization will require the development within the coming decades of primary energy sources that do not emit carbon dioxide to the atmosphere, in addition to efforts to reduce end-use energy demand. Mid-century primary power requirements that are free of carbon dioxide emissions could be several times what we now derive from fossil fuels (∼10 13 watts), even with improvements in energy efficiency. Here we survey possible future energy sources, evaluated for their capability to supply massive amounts of carbon emission–free energy and for their potential for large-scale commercialization. Possible candidates for primary energy sources include terrestrial solar and wind energy, solar power satellites, biomass, nuclear fission, nuclear fusion, fission-fusion hybrids, and fossil fuels from which carbon has been sequestered. Non–primary power technologies that could contribute to climate stabilization include efficiency improvements, hydrogen production, storage and transport, superconducting global electric grids, and geoengineering. All of these approaches currently have severe deficiencies that limit their ability to stabilize global climate. We conclude that a broad range of intensive research and development is urgently needed to produce technological options that can allow both climate stabilization and economic development.

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Net-zero emissions energy systems

Davis

Lewis

Shaner

et al. 2018

Science

1,532

684

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Some energy services and industrial processes-such as long-distance freight transport, air travel, highly reliable electricity, and steel and cement manufacturing-are particularly difficult to provide without adding carbon dioxide (CO) to the atmosphere. Rapidly growing demand for these services, combined with long lead times for technology development and long lifetimes of energy infrastructure, make decarbonization of these services both essential and urgent. We examine barriers and opportunities associated with these difficult-to-decarbonize services and processes, including possible technological solutions and research and development priorities. A range of existing technologies could meet future demands for these services and processes without net addition of CO to the atmosphere, but their use may depend on a combination of cost reductions via research and innovation, as well as coordinated deployment and integration of operations across currently discrete energy industries.

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Sustainable hydrocarbon fuels by recycling CO 2 and H 2 O with renewable or nuclear energy

Graves

Ebbesen

Mogensen

et al. 2011

Renewable and Sustainable Energy Reviews

961

664

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Carbon dioxide disposal in carbonate minerals

Lackner

Wendt

Butt

et al. 1995

Energy

861

561

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A Guide to CO ₂ Sequestration

Lackner

2003

Science

1,142

483

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Klaus S. Lackner

Advanced Technology Paths to Global Climate Stability: Energy for a Greenhouse Planet

Net-zero emissions energy systems

Sustainable hydrocarbon fuels by recycling CO 2 and H 2 O with renewable or nuclear energy

Carbon dioxide disposal in carbonate minerals

A Guide to CO ₂ Sequestration

Contact Info

Product

Resources

About

Klaus S. Lackner

Advanced Technology Paths to Global Climate Stability: Energy for a Greenhouse Planet

Net-zero emissions energy systems

Sustainable hydrocarbon fuels by recycling CO 2 and H 2 O with renewable or nuclear energy

Carbon dioxide disposal in carbonate minerals

A Guide to CO 2 Sequestration

Contact Info

Product

Resources

About

A Guide to CO ₂ Sequestration