Authors: I.B. Kilkis
Addresses: Heatway, 3131 West Chestnut Expwy, Springfield, MO 65802, USA
Abstract: Low-temperature district heating permits the use of energy resources formerly discarded or could not be claimed. However, its investment may be capital intensive because of equipment oversizing and temperature peaking required by conventional equipment. In classical design philosophy, flow is minimised in order to compensate some of the oversizing costs and to improve the utilisation rate of the energy source. This paper shows that oversizing has diminishing returns and there exists and optimum split between equipment oversizing and thermal peaking. This article identifies the attributes and limitations of low-temperature district energy systems and describes the factors affecting the feasibility. Equipment oversizing characteristics in series and parallel arrangement like capacity improvement, temperature drop and energy loss in the circuitry are analytically expressed. A new design strategy is developed for optimum building retrofitting for low-temperature applications. A design example shows that district heating can be substantially improved by using cascaded, hybrid HVAC systems with alternative equipment.
Keywords: low temperature district heating; hybrid HVAC systems; temperature peaking; equipment oversizing.
International Journal of Global Energy Issues, 2002 Vol.17 No.1/2, pp.113-129
Published online: 18 Aug 2003 *Full-text access for editors Access for subscribers Purchase this article Comment on this article