LCA (Life Cycle Assessment) of Parabolic Trough CSP: Materials Inventory and Embodied GHG Emissions from Two-Tank Indirect and Thermocline Thermal Storage (Presentation)

Michelle Kubik

Research output: NRELPresentation

Abstract

In the United States, concentrating solar power (CSP) is one of the most promising renewable energy (RE) technologies for reduction of electric sector greenhouse gas (GHG) emissions and for rapid capacity expansion. It is also one of the most price-competitive RE technologies, thanks in large measure to decades of field experience and consistent improvements in design. One of the key design features that makes CSP more attractive than many other RE technologies, like solar photovoltaics and wind, is the potential for including relatively low-cost and efficient thermal energy storage (TES), which can smooth the daily fluctuation of electricity production and extend its duration into the evening peak hours or longer. Because operational environmental burdens are typically small for RE technologies, life cycle assessment (LCA) is recognized as the most appropriate analytical approach for determining their environmental impacts of these technologies, including CSP. An LCA accounts for impacts from all stages in the development, operation, and decommissioning of a CSP plant, including such upstream stages as the extraction of raw materials used in system components, manufacturing of those components, and construction of the plant. The National Renewable Energy Laboratory (NREL) is undertaking an LCA of modern CSP plants, starting with those of parabolic trough design.
Original languageAmerican English
Number of pages15
StatePublished - 2009

Publication series

NamePresented at the 2009 ASME 3rd International Conference on Energy Sustainability, 19-23 July 2009, San Francisco, California

NREL Publication Number

  • NREL/PR-6A2-46875

Keywords

  • concentrating solar power (CSP)
  • CSP
  • GHG
  • greenhouse gas emissions (GHG)
  • life-cycle assessment
  • RE technologies
  • solar
  • TES
  • thermal energy storage

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