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Book chapter

LiBr absorption systems integrated with high-efficiency IGSG plant

In Green Energy and Technology 2018, pp. 705-726

By Masoud, Rokni1,2; Filippo, Bellomare3

Edited by Aloui, F.; Dincer, I.

From

Department of Mechanical Engineering, Technical University of Denmark1

Thermal Energy, Department of Mechanical Engineering, Technical University of Denmark2

University of Padua3

Over the last few years, the energy demand for cooling systems is increasing; different solutions in fact have been proposed in order to minimize the energetic and environmental impact of this trend. In this direction, absorption cooling systems are recognized as a valid alternative to traditional vapor compression inverse cycles; waste heat from other systems can in fact be used as an efficient input instead of electrical energy.

The opportunity to integrate LiBr absorption systems with a high-efficiency energy plant was studied; rejected heat from a municipal solid waste gasification plant integrated with solid oxide fuel cell and gas turbine, called IGSG (Integrated Gasification SOFC and GT), was in fact considered to feed absorption cooling units.

Two different possible integrations of heat fluxes were investigated; variations of the most critical parameters have been studied and analyzed in order to evaluate plant features and find out critical working conditions.

Language: English
Publisher: Springer
Year: 2018
Pages: 705-726
Series: Green Energy and Technology
Journal subtitle: Fundamentals
ISBN: 3319625713 , 3319625721 , 9783319625713 and 9783319625720
ISSN: 18653529
Types: Book chapter
DOI: 10.1007/978-3-319-62572-0_45
ORCIDs: Masoud, Rokni
Keywords

Absorption Cooling systems Gasification Municipal solid waste SDG 11 - Sustainable Cities and Communities SDG 12 - Responsible Consumption and Production SOFC

Other keywords

Energy Energy Efficiency Engineering Fluid Dynamics Mechanical Engineering Renewable and Green Energy Sustainable Development Transportation

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