Publication result detail

Gas microturbine as a main source of energy for industrial laundry – feasibility study

KONEČNÁ, E.; MÁŠA, V.; MIKLAS, V.; SLOVÁK, R.; JÖRDENING, A.; BLAHA, V.

Original Title

Gas microturbine as a main source of energy for industrial laundry – feasibility study

English Title

Gas microturbine as a main source of energy for industrial laundry – feasibility study

Type

WoS Article

Original Abstract

Professional laundry service is a leading solution for laundry maintenance in medical care, tourism, catering, and other commercial services. Industrial laundry is a significant worldwide sector with high energy demand. Industrial laundries use steam for heating the washing water, drying and ironing. Combined heat and power production is a promising and straightforward way to produce energy for the whole process. A gas microturbine (GMT) is a source of heat and electrical power with an efficiency of up to 90%. The laundry process development could be associated mainly with eliminating steam production and improving water utilisation. This paper provides an overview of the latest trends concerning the laundry process, introduces the grey-box model of the laundry process with GMT, evaluates several scenarios using the hot flue gas to operate the laundry machines, including their economy. GMT achieves the lowest operational cost and the highest primary energy savings (25.9%) within the evaluated scenarios, with an overall efficiency of 80.3%. The payback period for the greenfield project is 2.8 years and 5.8 for retrofit. It was found that GMT is an excellent source of electrical and thermal energy for industrial laundries utilising the hot flue gas for direct linen drying.

English abstract

Professional laundry service is a leading solution for laundry maintenance in medical care, tourism, catering, and other commercial services. Industrial laundry is a significant worldwide sector with high energy demand. Industrial laundries use steam for heating the washing water, drying and ironing. Combined heat and power production is a promising and straightforward way to produce energy for the whole process. A gas microturbine (GMT) is a source of heat and electrical power with an efficiency of up to 90%. The laundry process development could be associated mainly with eliminating steam production and improving water utilisation. This paper provides an overview of the latest trends concerning the laundry process, introduces the grey-box model of the laundry process with GMT, evaluates several scenarios using the hot flue gas to operate the laundry machines, including their economy. GMT achieves the lowest operational cost and the highest primary energy savings (25.9%) within the evaluated scenarios, with an overall efficiency of 80.3%. The payback period for the greenfield project is 2.8 years and 5.8 for retrofit. It was found that GMT is an excellent source of electrical and thermal energy for industrial laundries utilising the hot flue gas for direct linen drying.

Keywords

Gas microturbine, Laundry, Process integration, Heat utilisation, Combined heat and power, Techno-economic analysis

Key words in English

Gas microturbine, Laundry, Process integration, Heat utilisation, Combined heat and power, Techno-economic analysis

Authors

KONEČNÁ, E.; MÁŠA, V.; MIKLAS, V.; SLOVÁK, R.; JÖRDENING, A.; BLAHA, V.

RIV year

2024

Released

15.03.2023

Publisher

Elsevier

Location

Oxford, England

ISBN

0360-5442

Periodical

Energy

Volume

267

Number

1

State

United Kingdom of Great Britain and Northern Ireland

Pages count

14

URL

BibTex

@article{BUT183316,
  author="KONEČNÁ, E. and MÁŠA, V. and MIKLAS, V. and SLOVÁK, R. and JÖRDENING, A. and BLAHA, V.",
  title="Gas microturbine as a main source of energy for industrial laundry – feasibility study",
  journal="Energy",
  year="2023",
  volume="267",
  number="1",
  pages="14",
  doi="10.1016/j.energy.2023.126630",
  issn="0360-5442",
  url="https://www.sciencedirect.com/science/article/pii/S0360544223000245"
}