Publication detail
Increasing energy efficiency of milk product batch sterilisation
Philipp, M. Schumm, G. Heck, P. Schlosser, F. Peesel, R.H. Walmsley, T.G. Atkins, M.J
English title
Increasing energy efficiency of milk product batch sterilisation
Type
journal article in Web of Science
Language
en
Original abstract
The food industry is a large energy consumer and most heat demands in food processing are low-temperature. The aim of this study is to develop and simulate innovative retrofits or redesigns that unlock the heat recovery potential of industrial batch sterilisation processes. The case study focuses on the whey cream process, although the method and results apply to similar batch sterilisation processes. The initial situation is compared to energy efficient designs based on “Energy Storage” and “Rescheduling”. Using a thermodynamic model, including the control system, the dynamic behaviour is simulated. The results show a high energy saving potential of up to 83%, faster processing with up to 60% timesaving, and favourable economics for the proposed novel designs.
English abstract
The food industry is a large energy consumer and most heat demands in food processing are low-temperature. The aim of this study is to develop and simulate innovative retrofits or redesigns that unlock the heat recovery potential of industrial batch sterilisation processes. The case study focuses on the whey cream process, although the method and results apply to similar batch sterilisation processes. The initial situation is compared to energy efficient designs based on “Energy Storage” and “Rescheduling”. Using a thermodynamic model, including the control system, the dynamic behaviour is simulated. The results show a high energy saving potential of up to 83%, faster processing with up to 60% timesaving, and favourable economics for the proposed novel designs.
Keywords in English
Batch sterilisation; Dairy processing; Energy efficiency; Pinch analysis; Energy conservation; Temperature; Thermal processing (foods); Waste heat; Dynamic behaviours; Energy saving potential; Energy-efficient design; Initial situation; Sterilisation process; Thermodynamic model; Energy efficiency; Control system; Dairy farming; Energy conservation; Food industry; Food processing; Low temperature; Milk production; Numerical model; Temperature effect.
Released
01.12.2018
Publisher
Elsevier Ltd
ISSN
0360-5442
Number
164
Pages from–to
995–1010
Pages count
6
BIBTEX
@article{BUT159415,
author="Timothy Gordon {Walmsley} and Šárka {Zemanová},
title="Increasing energy efficiency of milk product batch sterilisation",
year="2018",
number="164",
month="December",
pages="995--1010",
publisher="Elsevier Ltd",
issn="0360-5442"
}