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Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study

Research output: Contributions to collected editions/worksChapter

Standard

Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study. / Fandel, Günter; Reese, Joachim.
Essays on Production Theory and Planning. ed. / Günter Fandel; Harald Dyckhoff; Joachim Reese. Berlin: Springer, 1988. p. 107-120.

Research output: Contributions to collected editions/worksChapter

Harvard

Fandel, G & Reese, J 1988, Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study. in G Fandel, H Dyckhoff & J Reese (eds), Essays on Production Theory and Planning. Springer, Berlin, pp. 107-120. https://doi.org/10.1007/978-3-642-73748-0_7

APA

Fandel, G., & Reese, J. (1988). Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study. In G. Fandel, H. Dyckhoff, & J. Reese (Eds.), Essays on Production Theory and Planning (pp. 107-120). Springer. https://doi.org/10.1007/978-3-642-73748-0_7

Vancouver

Fandel G, Reese J. Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study. In Fandel G, Dyckhoff H, Reese J, editors, Essays on Production Theory and Planning. Berlin: Springer. 1988. p. 107-120 doi: 10.1007/978-3-642-73748-0_7

Bibtex

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title = "Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station: A Case Study",
abstract = "Energy represents for every industrial site a fundamental process input which can only be substituted with great difficulty and without which industrial manufacture in general is impossible. The requirement is hereby concentrated on the utilization of distinct types of thermal energy for the process steam and heating, as well as for power and light. According to Wolf (1987) the total demand in 1981 for energy for industrial purposes in the Federal Republic of Germany was divided as follows — 75.9% for the manufacturing process, 10.9% for space heating, and 13.2% for power and light. Although serveral energy resources were used equally for the production of heat, power and light were generated almost without exception by means of electricity. Heat as well as power and light, or rather electricity, are all commodities which have only a limited storage capacity. This leads to considerable procurement problems when the energy requirement fluctuates.",
keywords = "Management studies, Steam Generation, Space Heating, Desalinate Water, Throttle valves, Contract Price",
author = "G{\"u}nter Fandel and Joachim Reese",
year = "1988",
month = oct,
day = "1",
doi = "10.1007/978-3-642-73748-0_7",
language = "English",
isbn = "3-540-19314-6",
pages = "107--120",
editor = "G{\"u}nter Fandel and Harald Dyckhoff and Joachim Reese",
booktitle = "Essays on Production Theory and Planning",
publisher = "Springer",
address = "Germany",

}

RIS

TY - CHAP

T1 - Optimal Heat-Matched Cogeneration of Energy in a Firm Owned Power Station

T2 - A Case Study

AU - Fandel, Günter

AU - Reese, Joachim

PY - 1988/10/1

Y1 - 1988/10/1

N2 - Energy represents for every industrial site a fundamental process input which can only be substituted with great difficulty and without which industrial manufacture in general is impossible. The requirement is hereby concentrated on the utilization of distinct types of thermal energy for the process steam and heating, as well as for power and light. According to Wolf (1987) the total demand in 1981 for energy for industrial purposes in the Federal Republic of Germany was divided as follows — 75.9% for the manufacturing process, 10.9% for space heating, and 13.2% for power and light. Although serveral energy resources were used equally for the production of heat, power and light were generated almost without exception by means of electricity. Heat as well as power and light, or rather electricity, are all commodities which have only a limited storage capacity. This leads to considerable procurement problems when the energy requirement fluctuates.

AB - Energy represents for every industrial site a fundamental process input which can only be substituted with great difficulty and without which industrial manufacture in general is impossible. The requirement is hereby concentrated on the utilization of distinct types of thermal energy for the process steam and heating, as well as for power and light. According to Wolf (1987) the total demand in 1981 for energy for industrial purposes in the Federal Republic of Germany was divided as follows — 75.9% for the manufacturing process, 10.9% for space heating, and 13.2% for power and light. Although serveral energy resources were used equally for the production of heat, power and light were generated almost without exception by means of electricity. Heat as well as power and light, or rather electricity, are all commodities which have only a limited storage capacity. This leads to considerable procurement problems when the energy requirement fluctuates.

KW - Management studies

KW - Steam Generation

KW - Space Heating

KW - Desalinate Water

KW - Throttle valves

KW - Contract Price

UR - https://www.mendeley.com/catalogue/b48f8e94-f0a3-3644-b911-3c32654b2731/

U2 - 10.1007/978-3-642-73748-0_7

DO - 10.1007/978-3-642-73748-0_7

M3 - Chapter

SN - 3-540-19314-6

SN - 978-3-540-19314-2

SN - 978-3-642-73750-3

SN - 0-387-19314-6

SP - 107

EP - 120

BT - Essays on Production Theory and Planning

A2 - Fandel, Günter

A2 - Dyckhoff, Harald

A2 - Reese, Joachim

PB - Springer

CY - Berlin

ER -

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DOI