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Thermo-ecologyexergy as a measure of...

Czarnowska, Lucyna,

Thermo-ecologyexergy as a measure of sustainability /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Thermo-ecologyWojciech Stanek, Paweł Gładysz, Lucyna Czarnowska, Tomasz Simla.
Reminder of title:	exergy as a measure of sustainability /
Author:	Stanek, Wojciech,
other author:	Gładysz, Paweł,
Published:	London :Academic Press, an imprint of Elsevier,2019.
Description:	1 online resource.
Subject:	Exergy.
Online resource:	https://www.sciencedirect.com/science/book/9780128131428
ISBN:	9780128131435 (electronic bk.)

Thermo-ecologyexergy as a measure of sustainability /
Stanek, Wojciech,

Thermo-ecologyexergy as a measure of sustainability /[electronic resource] :Wojciech Stanek, Paweł Gładysz, Lucyna Czarnowska, Tomasz Simla. - London :Academic Press, an imprint of Elsevier,2019. - 1 online resource.

Includes bibliographical references and index.

Front Cover; Thermo-Ecology; Thermo-Ecology; Dedicated to the memory of Professor Jan Szargut (09.09.1923-21.11.2017); Contents; Biographies; 1 -- Introduction; References; 2 -- Thermo-ecological cost; Fundamentals of exergy analysis; Fundamental concept of thermo-ecological cost; Application of harmfulness coefficients to thermo-ecological cost; Thermo-ecological evaluation of waste products; Simplified thermo-ecological evaluation of waste products; Global thermo-ecological cost; Thermo-ecological cost of abatement installation; Example: thermo-ecological cost of CO2 removal

Thermo-ecology: Exergy as a Measure of Sustainability integrates thermo-ecology and exergy replacement cost as a new and original tool called thermo-ecology cost, or TEC. This tool allows for a more inclusive measurement of the impacts of using renewable and non-renewable resources by including the thermodynamics law in decision-making and presenting applications of this tool across industries and lifecycle assessments. It includes ways to investigate these effects more effectively by combining these critical aspects. This combination has emerged as a valuable decision-support tool for policymakers and the industry as they seek to evaluate the impacts of a product or process.

ISBN: 9780128131435 (electronic bk.)Subjects--Topical Terms:

233577
Exergy.
Index Terms--Genre/Form:

214472
Electronic books.

LC Class. No.: TJ265

Dewey Class. No.: 621.4021

Thermo-ecologyexergy as a measure of sustainability /
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100 1 $a Stanek, Wojciech, $e author. $3 896306
245 1 0 $a Thermo-ecology $h [electronic resource] : $b exergy as a measure of sustainability / $c Wojciech Stanek, Paweł Gładysz, Lucyna Czarnowska, Tomasz Simla.
260 $a London : $b Academic Press, an imprint of Elsevier, $c 2019.
300 $a 1 online resource.
504 $a Includes bibliographical references and index.
505 0 $a Front Cover; Thermo-Ecology; Thermo-Ecology; Dedicated to the memory of Professor Jan Szargut (09.09.1923-21.11.2017); Contents; Biographies; 1 -- Introduction; References; 2 -- Thermo-ecological cost; Fundamentals of exergy analysis; Fundamental concept of thermo-ecological cost; Application of harmfulness coefficients to thermo-ecological cost; Thermo-ecological evaluation of waste products; Simplified thermo-ecological evaluation of waste products; Global thermo-ecological cost; Thermo-ecological cost of abatement installation; Example: thermo-ecological cost of CO2 removal
505 8 $a Lifetime application to thermo-ecological costLifetime in thermo-ecological cost methodology; Life cycle thermo-ecological cost evaluation; Import and export in thermo-ecological cost methodology; Thermo-ecological simplified evaluation of imported and exported products; Extended thermo-ecological evaluation of imported and exported products; By-products in thermo-ecological cost methodology; Human labour in environmental analysis; Human labour in extended exergy accounting; Human labour in thermo-ecological cost methodology; Fuel part and mineral part of the thermo-ecological cost
505 8 $a Fuel and mineral thermo-ecological cost: example [70]Developed and extended concept of thermo-ecological cost; Partial thermo-ecological cost; TEC-LC of mineral and metal extraction; TEC-LC of hard coal in selected countries; TEC-LCof hard coal in selected regions around the world; Characteristics of polish coal extraction; TEC-LC of hard coal extracted in Poland; Cumulative harmful potentials in the case of polish coal; TEC-LC of transport; TEC-LC of electricity; TEC-LC of electricity in selected regions; TEC-LC of electricity generated by wind turbine; References
505 8 $a 3 -- Examples of application of TECThermo-ecological cost of hard coal with inclusion of the whole life cycle chain [1]; TEC of coal in the whole life cycle; Power plant; Heating plant based on house boiler; Combined heat-and-power plant; Results of calculations, discussion and conclusions; Thermo-ecological cost of electricity generated in renewable energy sources [8]; Thermo-ecological cost of non-renewable fuels; Thermo-ecological cost of renewable fuels; Characteristics of analyzed power plants; Biogas power plant; Characteristics of analyzed power plants; Photovoltaic power plant
505 8 $a Wind power plantCalculation of TEC compensation; Results of TEC calculations; Thermo-ecological evaluation of nuclear power plant within the whole life cycle [25]; Chemical and nuclear exergy of primary natural resources; Description of the full cycle of the considered light water reactor; Fuel enrichment (stage 3); Power plant (stage 6); Results of TEC calculations and discussion; Thermodynamic evaluation of biomass-to-biofuel production systems [36]; Production ofselected biofuels; Fischer-Tropsch fuels; Methanol; Hydrogen; Synthetic natural gas
520 $a Thermo-ecology: Exergy as a Measure of Sustainability integrates thermo-ecology and exergy replacement cost as a new and original tool called thermo-ecology cost, or TEC. This tool allows for a more inclusive measurement of the impacts of using renewable and non-renewable resources by including the thermodynamics law in decision-making and presenting applications of this tool across industries and lifecycle assessments. It includes ways to investigate these effects more effectively by combining these critical aspects. This combination has emerged as a valuable decision-support tool for policymakers and the industry as they seek to evaluate the impacts of a product or process.
650 0 $a Exergy. $3 233577
650 0 $a Thermodynamics. $3 183038
650 0 $a Sustainable development. $3 177699
650 7 $a TECHNOLOGY & ENGINEERING $x Mechanical. $2 bisacsh $3 858175
655 0 $a Electronic books. $2 local. $3 214472
700 1 $a Gładysz, Paweł, $e author. $3 896307
700 1 $a Czarnowska, Lucyna, $e author. $3 896308
700 1 $a Simla, Tomasz, $e author. $3 896309
856 4 0 $u https://www.sciencedirect.com/science/book/9780128131428