Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production

Research output: Contribution to journalArticlepeer-review

Standard Standard

Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production. / Schestak, Isabel; Spriet, Jan; Black, Kirsty et al.
In: Journal of Environmental Management, Vol. 325, No. part A, 116468, 01.01.2023.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Schestak, I, Spriet, J, Black, K, Styles, D, Farago, M, Rygaard, M & Williams, P 2023, 'Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production', Journal of Environmental Management, vol. 325, no. part A, 116468. https://doi.org/10.1016/j.jenvman.2022.116468

APA

Schestak, I., Spriet, J., Black, K., Styles, D., Farago, M., Rygaard, M., & Williams, P. (2023). Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production. Journal of Environmental Management, 325(part A), Article 116468. https://doi.org/10.1016/j.jenvman.2022.116468

CBE

Schestak I, Spriet J, Black K, Styles D, Farago M, Rygaard M, Williams P. 2023. Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production. Journal of Environmental Management. 325(part A):Article 116468. https://doi.org/10.1016/j.jenvman.2022.116468

MLA

VancouverVancouver

Schestak I, Spriet J, Black K, Styles D, Farago M, Rygaard M et al. Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production. Journal of Environmental Management. 2023 Jan 1;325(part A):116468. Epub 2022 Nov 2. doi: 10.1016/j.jenvman.2022.116468

Author

Schestak, Isabel ; Spriet, Jan ; Black, Kirsty et al. / Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production. In: Journal of Environmental Management. 2023 ; Vol. 325, No. part A.

RIS

TY - JOUR

T1 - Heat recovery and water reuse in micro-distilleries improves eco-efficiency of alcohol production

AU - Schestak, Isabel

AU - Spriet, Jan

AU - Black, Kirsty

AU - Styles, David

AU - Farago, Maria

AU - Rygaard, Martin

AU - Williams, Prysor

PY - 2023/1/1

Y1 - 2023/1/1

N2 - The number of micro-scale spirit distilleries worldwide has grown considerably over the past decade. With an onus on the distillery sector to reduce its environmental impact, such as carbon emissions, opportunities for increasing energy efficiency need to be implemented. This study explores the potential environmental benefits and financial gains achievable through heat recovery from different process and by-product streams, exemplified for a Scotch whisky distillery, but transferrable to micro-distilleries worldwide.The eco-efficiency methodology is applied, taking into account both climate change and water scarcity impacts as well as economic performance of alcohol production with and without heat recovery. A Life Cycle Assessment, focusing on climate change and water scarcity, is combined with a financial assessment considering investment costs and the present value of the savings over the 20-year service life of the heat recovery system.The proposed heat recovery systems allow carbon emission reductions of 8–23% and water scarcity savings of 13–55% for energy and water provision for 1 L of pure alcohol (LPA). Financial savings are comparatively smaller, at 5–13%, due to discounting of the future savings – but offer a simple payback of the investment costs in under two years. The eco-efficiency of the distillery operations can be improved through all proposed heat recovery configurations, but best results are obtained when heat is recovered from mashing, distillations and by-products altogether. A sensitivity analysis confirmed that the methodology applied here delivers robust results and can help guide other micro-distilleries on whether to invest in heat recovery systems, and/or the heat recovery configuration.Uptake should be enhanced through increased information and planning support, and in cases where the distillery offers insufficient heat and water sinks to use all pre-warmed water, opportunities to link with a heat sink outside the distillery are encouraged. A 10% reduction in heating fuel use through heat recovery has the potential to save 47 kt of CO2 eq. or £7.4 M per annum in United Kingdom malt whisky production alone, based on current fuel types used and current prices (2021).

AB - The number of micro-scale spirit distilleries worldwide has grown considerably over the past decade. With an onus on the distillery sector to reduce its environmental impact, such as carbon emissions, opportunities for increasing energy efficiency need to be implemented. This study explores the potential environmental benefits and financial gains achievable through heat recovery from different process and by-product streams, exemplified for a Scotch whisky distillery, but transferrable to micro-distilleries worldwide.The eco-efficiency methodology is applied, taking into account both climate change and water scarcity impacts as well as economic performance of alcohol production with and without heat recovery. A Life Cycle Assessment, focusing on climate change and water scarcity, is combined with a financial assessment considering investment costs and the present value of the savings over the 20-year service life of the heat recovery system.The proposed heat recovery systems allow carbon emission reductions of 8–23% and water scarcity savings of 13–55% for energy and water provision for 1 L of pure alcohol (LPA). Financial savings are comparatively smaller, at 5–13%, due to discounting of the future savings – but offer a simple payback of the investment costs in under two years. The eco-efficiency of the distillery operations can be improved through all proposed heat recovery configurations, but best results are obtained when heat is recovered from mashing, distillations and by-products altogether. A sensitivity analysis confirmed that the methodology applied here delivers robust results and can help guide other micro-distilleries on whether to invest in heat recovery systems, and/or the heat recovery configuration.Uptake should be enhanced through increased information and planning support, and in cases where the distillery offers insufficient heat and water sinks to use all pre-warmed water, opportunities to link with a heat sink outside the distillery are encouraged. A 10% reduction in heating fuel use through heat recovery has the potential to save 47 kt of CO2 eq. or £7.4 M per annum in United Kingdom malt whisky production alone, based on current fuel types used and current prices (2021).

KW - Available water remaining (AWARE)

KW - Cooling water

KW - Craft distilleries

KW - Greenhouse gas emissions

KW - Net present value

KW - Potable spirits

U2 - 10.1016/j.jenvman.2022.116468

DO - 10.1016/j.jenvman.2022.116468

M3 - Article

VL - 325

JO - Journal of Environmental Management

JF - Journal of Environmental Management

SN - 0301-4797

IS - part A

M1 - 116468

ER -