Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux

In this thesis, the impact of open loop heat pumps on rivers is investigated. These heat pumps inject water of a different temperature into the environment as part of their heating (or cooling) process. In doing so, thermal plumes are created. The behaviour of these thermal plumes is studied using t...

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Main Author: Delboyer, Alistair
Format: Thesis (University of Nottingham only)
Language:English
Published: 2022
Subjects:
Online Access:https://eprints.nottingham.ac.uk/68476/
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author Delboyer, Alistair
author_facet Delboyer, Alistair
author_sort Delboyer, Alistair
building Nottingham Research Data Repository
collection Online Access
description In this thesis, the impact of open loop heat pumps on rivers is investigated. These heat pumps inject water of a different temperature into the environment as part of their heating (or cooling) process. In doing so, thermal plumes are created. The behaviour of these thermal plumes is studied using thermal imagery from the Matapédia river and a relationship between the temperature difference between the plume and the downstream distance from the source of the plume is determined. The cumulative impact of heat pumps on the ambient environment is investigated. This is carried out by considering the distance from the outflow of these heat pumps, or equivalently the sources of the thermal plumes, to the position where the thermal plumes can be considered to behave as one larger plume. This distance, the merging height (or merging distance), is studied as a function of source separation between the plumes, number of plumes and cross-flow velocity of the ambient environment. The mathematical models devised to study this show that the merging height increases linearly with source separation in both stillwater and a cross-flow, increases with the number of plumes, and decays exponentially with increasing cross-flow velocities. These findings are confirmed by experimental data. In conclusion, this work has determined relationships to explain the cumulative impact of heat pumps on the ambient environment and makes suggestions for further areas of investigation.
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format Thesis (University of Nottingham only)
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institution University of Nottingham Malaysia Campus
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language English
last_indexed 2025-11-14T20:52:24Z
publishDate 2022
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spelling nottingham-684762022-08-02T04:40:12Z https://eprints.nottingham.ac.uk/68476/ Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux Delboyer, Alistair In this thesis, the impact of open loop heat pumps on rivers is investigated. These heat pumps inject water of a different temperature into the environment as part of their heating (or cooling) process. In doing so, thermal plumes are created. The behaviour of these thermal plumes is studied using thermal imagery from the Matapédia river and a relationship between the temperature difference between the plume and the downstream distance from the source of the plume is determined. The cumulative impact of heat pumps on the ambient environment is investigated. This is carried out by considering the distance from the outflow of these heat pumps, or equivalently the sources of the thermal plumes, to the position where the thermal plumes can be considered to behave as one larger plume. This distance, the merging height (or merging distance), is studied as a function of source separation between the plumes, number of plumes and cross-flow velocity of the ambient environment. The mathematical models devised to study this show that the merging height increases linearly with source separation in both stillwater and a cross-flow, increases with the number of plumes, and decays exponentially with increasing cross-flow velocities. These findings are confirmed by experimental data. In conclusion, this work has determined relationships to explain the cumulative impact of heat pumps on the ambient environment and makes suggestions for further areas of investigation. 2022-08-02 Thesis (University of Nottingham only) NonPeerReviewed application/pdf en cc_by https://eprints.nottingham.ac.uk/68476/1/main.pdf Delboyer, Alistair (2022) Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux. PhD thesis, University of Nottingham. mathematical modelling heat pumps fluids thermal plumes environmental impact
spellingShingle mathematical modelling
heat pumps
fluids
thermal plumes
environmental impact
Delboyer, Alistair
Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title_full Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title_fullStr Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title_full_unstemmed Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title_short Mathematical Modelling of the Merging of Turbulent Plumes with Applications to Heat Pump Efflux
title_sort mathematical modelling of the merging of turbulent plumes with applications to heat pump efflux
topic mathematical modelling
heat pumps
fluids
thermal plumes
environmental impact
url https://eprints.nottingham.ac.uk/68476/