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Cascading and radiator flow optimization in district heating substations and advanced customer accounting - In pursuit of improved cooling

Författare

  • Patrick Lauenburg
  • Janusz Wollerstrand

Summary, in English

Ibis paper deals with various methods of improved cooling of primary water in district heating (DH) substations and evaluates the benefit of an improved cooling from the perspective of the construction of an appropriate customer accounting method. The general benefit of an improved cooling is well-known: Less thermal stresses in pipelines, lowered heat and pumping losses and increased capacity in the network, improved efficiency of combined heat and power plants and other types of generating plants using heat pumps, waste heat and flue gas condensation. To stimulate improved cooling in customer owned DH substations, some Swedish DH companies apply a method of customer accounting based not only on heat energy consumption but also on primary water usage and mean water cooling. This benefits customers with thermodynamically well-functioning substations, i.e. a proper cooling, at the expense of customers with less well-functioning substations. The extension of 'flow accounting' has been mapped and found to be applied for a majority of the delivered heat. It represents an important incentive for proper cooling in substations. The study has found that the size of the flow accounting generally very well reflects the benefits for the DH company from an improved cooling. The amount of cooling of DH primary water achieved in DH substations depends on the employed connecting scheme. In a recent study, we demonstrated that adopting three-stage cascading could achieve significant improvements in this respect. The economical aspects on this subject are here further mapped out based on the results from the study of flow accounting. Optimized and properly functioning substation and secondary systems are, from an economical perspective, of at least equal interest as the choice of connection scheme. Especially if there is an existing oversizing of the radiators, considerably larger savings can be made if optimized control of the radiator circuit is employed.

Avdelning/ar

Publiceringsår

2005

Språk

Engelska

Sidor

1035-1042

Publikation/Tidskrift/Serie

Proceedings of Ecos 2005, Vols 1-3 - Shaping our future energy systems

Dokumenttyp

Konferensbidrag

Förlag

Norwegian University of Science and Technology

Ämne

  • Energy Engineering

Nyckelord

  • customer accounting
  • cascading
  • district heating
  • substations
  • circuit
  • radiator

Conference name

18th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2005)

Conference date

2005-06-20 - 2005-06-22

Conference place

Trondheim, Norway

Status

Published

ISBN/ISSN/Övrigt

  • ISBN: 82-519-2041-8