Cost Minimization in a Firm's Power Station

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Standard

Cost Minimization in a Firm's Power Station. / Reese, Joachim; Fandel, Günter.
Systems Analysis and Simulation II: Applications Proceedings of the International Symposium held in Berlin, September 12–16, 1988. Hrsg. / Achim Sydow; Spyros G. Tzafestas; Robert Vichnevetsky. New York: Springer New York LLC, 1988. S. 272-277 (System Analysis Modelling Simulations; Band 2).

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Harvard

Reese, J & Fandel, G 1988, Cost Minimization in a Firm's Power Station. in A Sydow, SG Tzafestas & R Vichnevetsky (Hrsg.), Systems Analysis and Simulation II: Applications Proceedings of the International Symposium held in Berlin, September 12–16, 1988. System Analysis Modelling Simulations, Bd. 2, Springer New York LLC, New York, S. 272-277. https://doi.org/10.1007/978-1-4613-8936-1_56

APA

Reese, J., & Fandel, G. (1988). Cost Minimization in a Firm's Power Station. In A. Sydow, S. G. Tzafestas, & R. Vichnevetsky (Hrsg.), Systems Analysis and Simulation II: Applications Proceedings of the International Symposium held in Berlin, September 12–16, 1988 (S. 272-277). (System Analysis Modelling Simulations; Band 2). Springer New York LLC. https://doi.org/10.1007/978-1-4613-8936-1_56

Vancouver

Reese J, Fandel G. Cost Minimization in a Firm's Power Station. in Sydow A, Tzafestas SG, Vichnevetsky R, Hrsg., Systems Analysis and Simulation II: Applications Proceedings of the International Symposium held in Berlin, September 12–16, 1988. New York: Springer New York LLC. 1988. S. 272-277. (System Analysis Modelling Simulations). doi: 10.1007/978-1-4613-8936-1_56

Bibtex

@inbook{f1d918d762744f02b64898fcbcd0b13c,
title = "Cost Minimization in a Firm's Power Station",
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 several 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, optimal policy, space heating, peak demand, throttle valve, provess steam",
author = "Joachim Reese and G{\"u}nter Fandel",
year = "1988",
doi = "10.1007/978-1-4613-8936-1_56",
language = "English",
isbn = "978-0-387-97093-6",
series = "System Analysis Modelling Simulations",
publisher = "Springer New York LLC",
pages = "272--277",
editor = "Achim Sydow and Tzafestas, {Spyros G.} and Robert Vichnevetsky",
booktitle = "Systems Analysis and Simulation II",
address = "United States",

}

RIS

TY - CHAP

T1 - Cost Minimization in a Firm's Power Station

AU - Reese, Joachim

AU - Fandel, Günter

PY - 1988

Y1 - 1988

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 several 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 several 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 - optimal policy

KW - space heating

KW - peak demand

KW - throttle valve

KW - provess steam

UR - https://www.mendeley.com/catalogue/86b6e47e-f33d-3d47-b296-88324f5e02a9/

U2 - 10.1007/978-1-4613-8936-1_56

DO - 10.1007/978-1-4613-8936-1_56

M3 - Article in conference proceedings

SN - 978-0-387-97093-6

T3 - System Analysis Modelling Simulations

SP - 272

EP - 277

BT - Systems Analysis and Simulation II

A2 - Sydow, Achim

A2 - Tzafestas, Spyros G.

A2 - Vichnevetsky, Robert

PB - Springer New York LLC

CY - New York

ER -

DOI

Zuletzt angesehen

Publikationen

  1. Bank Dividend Policy and the European Debt Crisis
  2. Rarity types of forest plants in Northern Germany
  3. Naturwaldforschung in den Serrahner Buchenwäldern
  4. Kindheit aus sozialwissenschaftlicher Perspektive
  5. Kurd Alslebens und Antje Eskes Konversationskunst
  6. Timing, fragmentation of work and income inequality
  7. Einkommensungleichheit und Reichtum in Deutschland
  8. Change and Continuity in Western Welfare Practices
  9. 3. Methoden-Muster: Austausch, Koordination, Abstimmung
  10. Moving beyond unlearning unsustainable consumption
  11. Geometric series with randomly increasing exponents
  12. Interim Orders by the Euroean Court of Human Rights
  13. Give and take frames in shared-resource negotiations
  14. Pharmaceuticals in the Environment - A Brief Summary
  15. Arzneimittelrückstände in Trinkwasser und Gewässern
  16. Begriffsbestimmung und Konzepte der Ökotoxikologie
  17. Ansätze zu einer Archäologie akustischer Ökologien
  18. Regierungsbildung in der Bundesrepublik Deutschland
  19. EU Refugee Policies and Politics in Times of Crisis
  20. Cost and schedule overruns in large hydropower dams
  21. Food Tourists' Travel Behavior and Well-Being Effects
  22. Intersubjectivity and alterity in the works of Kant
  23. Kulturelle Dimension einer nachhaltigen Entwicklung
  24. The Lumpiness of German Exports and Imports of Goods
  25. rSOESGOPE Method Applied to Four-Tank System Modeling
  26. Sensomotorik – Integration von Koordination und Kraft
  27. Interaktion und Kommunikation in der Sozialen Arbeit
  28. Management im Sozialen. Kindergarten als Organisation
  29. Culture as Value Added Industry and as Embedded Life
  30. Analysis of life cycle datasets for the material gold
  31. Transnational governance towards sustainable biofuels
  32. Das Trauma anderer betrachten - Zehn Jahre 9/11 im Bild.