Decentralized drain water heat recovery from commercial kitchens in the hospitality sector

摘要

In order to meet ambitious greenhouse gas reduction targets, the reduction of fuel consumption in the heating sector is necessary. This paper assesses the impact of introducing direct drain water heat recovery systems in commercial kitchens in the UK, based on a commercially available heat exchangers. The recoverable heat from these kitchens was estimated using Monte Carlo simulation, sector consumption data, and data measured in the field.A financial criterion, the Net Present Value calculated over 10 years, was used to estimate feasibility threshold values for the kitchen water consumption, varying with the heating fuel used in each premises. This analysis resulted in a total financially feasible potential for drain water heat recovery in the hospitality and food service sector in the UK of approximately 1.24 TWh/yr, leading to a reduction in GHG emissions of 344 k tons Ce/yr. This could be achieved at a cost of approximately 2.94p pound/kgCe(saved), over a 10-year lifetime, which was several orders of magnitude smaller than traditional renewable heat sources such as heat pumps.Commercially available drain water heat recovery systems could, when installed, exploit around 88% of current potential in drain water heat in commercial kitchens (1.40 TWh/yr) in a manner that is financially profitable. However, this paper assumes the availability of a 2 m vertical drop in the kitchen drain, required to install the heat exchanger, and thus achieve optimal effectiveness. In case this head is not available, the heat recovery potential would be untapped, as in approximately 160 GWh, in kitchens where the hot water consumption is too small for financial profitability. This corresponds to a reduction in GHG emissions of 44k tons Ce/yr and leaves a gap in the market for inexpensive DWHR devices, which could exploit this potential at lower efficiencies. (C) 2019 Elsevier B.V. All rights reserved.