Description |
1 online resource (xxiii, 161 pages) : illustrations, maps (digital, PDF file). |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
RAND Corporation technical report series ; TR-984-NETL |
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Technical report (Rand Corporation) ; TR-984-NETL.
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Bibliography |
Includes bibliographical references (pages 157-161). |
Contents |
Introduction -- Cofiring experience in the United States -- Plant-site costs of cofiring -- Near-term potential demand for biomass for cofiring applications -- Logistical considerations -- Reductions in life-cycle greenhouse-gas emissions from cofiring with biomass -- Conclusions -- Appendix A: additional details from facility interviews -- Appendix B: supporting information for plant-site costs of cofiring -- Appendix C: state summaries of biomass use and potential demand -- Appendix D: Logistics analysis documentation -- Appendix E: calculation of net greenhouse-gas emissions from biomass cofiring. |
Summary |
"In light of potential regulatory limits on greenhouse-gas (GHG) emissions, requirements for greater use of renewable fuels, and higher prices for some conventional fossil resources, over the course of the next few decades, biomass is expected to become an increasingly important source of electricity, heat, and liquid fuel. One near-term option for using biomass to generate electricity is to cofire biomass in coal-fired electricity plants. Doing so allows such plants to reduce GHG emissions and, in appropriate regulatory environments, to generate renewable-energy credits to recover costs. This report focuses on two aspects of biomass use: plant-site modifications, changes in operations, and costs associated with cofiring biomass; and the logistical issues associated with delivering biomass to the plant. The authors find that the main challenge is maintaining a consistent fuel supply; technical and regulatory factors can drive the decision to cofire; cofiring can increase costs, decrease revenue, and reduce GHG emissions; densification does not reduce plant costs but can reduce transportation costs, however current markets cannot support use of densified fuels."--Provided by publisher. |
Language |
English. |
Subject |
Biomass energy -- United States.
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Electric power-plants -- United States -- Fuel.
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Electric power production -- United States.
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Bioénergie -- États-Unis.
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Centrales électriques -- États-Unis -- Combustibles.
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Électricité -- Production -- États-Unis.
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NATURE -- Animals -- Wildlife.
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SCIENCE -- Life Sciences -- Biological Diversity.
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BUSINESS & ECONOMICS -- Industries -- Energy.
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Biomass energy
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Electric power-plants -- Fuel
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Electric power production
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United States https://id.oclc.org/worldcat/entity/E39PBJtxgQXMWqmjMjjwXRHgrq
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Chemical & Materials Engineering.
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Engineering & Applied Sciences.
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Chemical Engineering.
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Added Author |
Ortiz, David (David Santana)
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Rand Environment, Energy, and Economic Development (Program)
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Rand Corporation.
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In: |
Books at JSTOR: Open Access JSTOR |
Other Form: |
Print version: Near-term opportunities for integrating biomass into the U.S. electricity supply. Santa Monica, Calif. : Rand, 2011 (DLC) 2011027125 |
ISBN |
9780833058461 (electronic bk.) |
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0833058460 (electronic bk.) |
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9780833058355 (pbk. ; alk. paper) |
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0833058355 (pbk. ; alk. paper) |
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1283268108 |
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9781283268103 |
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9786613268105 |
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6613268100 |
Standard No. |
AU@ 000048838430 |
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AU@ 000051334528 |
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AU@ 000062340795 |
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DEBBG BV043141977 |
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DEBBG BV044157565 |
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DEBSZ 372742505 |
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DEBSZ 421528427 |
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DEBSZ 431037914 |
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GBVCP 1008655961 |
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GBVCP 803617674 |
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NZ1 14164566 |
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