Solar Gasification of Biomass: A Molten Salt Pyrolysis Study-Reference-Cited by-同舟云学术

Solar Gasification of Biomass: A Molten Salt Pyrolysis Study

Published:2004-07-19 Issue:3 Volume:126 Page:850-857
ISSN:0199-6231
Container-title:Journal of Solar Energy Engineering
language:en
Short-container-title:

Author:

Adinberg Roman¹,Epstein Michael¹,Karni Jacob²

Affiliation:

1. Solar Research Facilities Unit, Weizmann Institute of Science, P.O. Box 26, Rehovot 76100, Israel

2. Department of Environmental Science and Energy Research, Weizmann Institute of Science, P.O. Box 26, Rehovot 76100, Israel

Abstract

A novel solar process and reactor for thermochemical conversion of biomass to synthesis gas is described. The concept is based on dispersion of biomass particles in a molten inorganic salt medium and, simultaneously, absorbing, storing and transferring solar energy needed to perform pyrolysis reactions in the high-temperature liquid phase. A lab-scale reactor filled with carbonates of potassium and sodium was set up to study the kinetics of fast pyrolysis and the characteristics of transient heat transfer for cellulose particles (few millimeters size) introduced into the molten salt medium. The operating conditions were reaction temperatures of 1073–1188 K and a particle peak-heating rate of 100 K/sec. The assessments performed for a commercial-scale solar reactor demonstrate that pyrolysis of biomass particles dispersed in a molten salt phase could be a feasible option for the continuous, round-the-clock production of syngas, using solar energy only.

Publisher

ASME International

Subject

Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment

Link

http://asmedigitalcollection.asme.org/solarenergyengineering/article-pdf/126/3/850/5712753/850_1.pdf

Reference35 articles.

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3. Epstein, M., Spiewak, I., Funken, K.-H., and Ortner, J., 1994, “Review of the Technologies for Solar Gasification of Carbonaceous Materials,” Proc., of ASME Int. Solar Energy Conf. on Solar Engineering, San Francisco, CA, USA, pp. 79–91.

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