Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine

Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine

As high mine-cooling costs have become a restriction for deep mining, a new cooling method has been proposed. In the area of filling mining, the CPB (cemented paste backfill) was given the cooling function by mixing it with phase change material (PCM). In deep mines, the PCM (e.g., ice particles) ab...

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Main Authors: Mei Wang, Lang Liu, Shiqi Wang, Bo Lv, Bo Zhang, Xiaoyan Zhang, Yujiao Zhao, Chao Huan
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-02-01
Series:Frontiers in Earth Science
Subjects:
mine cooling
cold load and storage
mass concentration
proportion of ice to water
heat transfer
Online Access:https://www.frontiersin.org/article/10.3389/feart.2020.00031/full
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spelling doaj-d16b691185de471ca1f58c76b40759e22020-11-25T02:09:41ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632020-02-01810.3389/feart.2020.00031487359Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep MineMei Wang0Mei Wang1Lang Liu2Lang Liu3Shiqi Wang4Bo Lv5Bo Zhang6Bo Zhang7Xiaoyan Zhang8Xiaoyan Zhang9Yujiao Zhao10Yujiao Zhao11Chao Huan12Chao Huan13Energy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaEnergy School, Xi’an University of Science and Technology, Xi’an, ChinaLaboratory of Western Mines and Hazards Prevention, Ministry of Education of Republic of China, Xi’an, ChinaAs high mine-cooling costs have become a restriction for deep mining, a new cooling method has been proposed. In the area of filling mining, the CPB (cemented paste backfill) was given the cooling function by mixing it with phase change material (PCM). In deep mines, the PCM (e.g., ice particles) absorb heat and change phases to cool the surrounding environment. A deep-mine-cooling mode based on the new CPB and upward sublevel filling method was designed, and the characteristics of the phase change were analyzed by numerical simulation. From the simulation results of the cooling period, this cooling method was effective during the whole stopes mining period. The CLS (cold load and storage) CPB mass concentration and the PCM initial proportion are the important factors controlling the cooling effect. It is concluded that the phase change duration decreased with the increasing mass concentration, while it increased with the increasing initial proportion of ice to water. Note that the thickness of CLS-functional CPB should be as small as possible to ensure the cold release rate. This study provides a theoretical foundation of heat transfer for the design and implementation of deep mine cooling by applying CLS-functional CPB.https://www.frontiersin.org/article/10.3389/feart.2020.00031/fullmine coolingcold load and storagemass concentrationproportion of ice to waterheat transfer
collection DOAJ
language English
format Article
sources DOAJ
author Mei Wang
Mei Wang
Lang Liu
Lang Liu
Shiqi Wang
Bo Lv
Bo Zhang
Bo Zhang
Xiaoyan Zhang
Xiaoyan Zhang
Yujiao Zhao
Yujiao Zhao
Chao Huan
Chao Huan
spellingShingle Mei Wang
Mei Wang
Lang Liu
Lang Liu
Shiqi Wang
Bo Lv
Bo Zhang
Bo Zhang
Xiaoyan Zhang
Xiaoyan Zhang
Yujiao Zhao
Yujiao Zhao
Chao Huan
Chao Huan
Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
Frontiers in Earth Science
mine cooling
cold load and storage
mass concentration
proportion of ice to water
heat transfer
author_facet Mei Wang
Mei Wang
Lang Liu
Lang Liu
Shiqi Wang
Bo Lv
Bo Zhang
Bo Zhang
Xiaoyan Zhang
Xiaoyan Zhang
Yujiao Zhao
Yujiao Zhao
Chao Huan
Chao Huan
author_sort Mei Wang
title Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
title_short Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
title_full Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
title_fullStr Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
title_full_unstemmed Numerical Investigation of Heat Transfer and Phase Change Characteristics of Cold Load and Storage Functional CPB in Deep Mine
title_sort numerical investigation of heat transfer and phase change characteristics of cold load and storage functional cpb in deep mine
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2020-02-01
description As high mine-cooling costs have become a restriction for deep mining, a new cooling method has been proposed. In the area of filling mining, the CPB (cemented paste backfill) was given the cooling function by mixing it with phase change material (PCM). In deep mines, the PCM (e.g., ice particles) absorb heat and change phases to cool the surrounding environment. A deep-mine-cooling mode based on the new CPB and upward sublevel filling method was designed, and the characteristics of the phase change were analyzed by numerical simulation. From the simulation results of the cooling period, this cooling method was effective during the whole stopes mining period. The CLS (cold load and storage) CPB mass concentration and the PCM initial proportion are the important factors controlling the cooling effect. It is concluded that the phase change duration decreased with the increasing mass concentration, while it increased with the increasing initial proportion of ice to water. Note that the thickness of CLS-functional CPB should be as small as possible to ensure the cold release rate. This study provides a theoretical foundation of heat transfer for the design and implementation of deep mine cooling by applying CLS-functional CPB.
topic mine cooling
cold load and storage
mass concentration
proportion of ice to water
heat transfer
url https://www.frontiersin.org/article/10.3389/feart.2020.00031/full
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