Experimental research of metal hydride heat storage reactor processes
Abstract The results of the experimental research of thermal, mass exchange and dynamical characteristics of processes inside the low temperature metal hydride (MH) thermal energy storage system are presented. Single stage pressure driven MH heat storage system of closed cycle concept was studied an...
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| Published in | Journal of physics. Conference series Vol. 2039; no. 1; pp. 12004 - 12009 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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IOP Publishing
01.10.2021
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| Abstract | Abstract
The results of the experimental research of thermal, mass exchange and dynamical characteristics of processes inside the low temperature metal hydride (MH) thermal energy storage system are presented. Single stage pressure driven MH heat storage system of closed cycle concept was studied and tested. Intermetallic compound (IMC) LaFe
0.1
Mn
0.3
Ni
4.8
in the quantity of 5 kg was used as main hydrogen storage/heat emitter element in the reactor. Nominal maximum hydrogen capacity of the reactor is 850 st.l. with though resulting effective volume of cycled hydrogen ended up to be around 240-250 st.l. The reactor type and intermetallic alloy, which were used in the series of experiments, proved to be somewhat suitable for the task, but more advanced heat exchange design along with selection of different type of IMC promise to increase the cycled effective volume along with the system dynamics, resulting in greater thermal energy power output. |
|---|---|
| AbstractList | Abstract
The results of the experimental research of thermal, mass exchange and dynamical characteristics of processes inside the low temperature metal hydride (MH) thermal energy storage system are presented. Single stage pressure driven MH heat storage system of closed cycle concept was studied and tested. Intermetallic compound (IMC) LaFe
0.1
Mn
0.3
Ni
4.8
in the quantity of 5 kg was used as main hydrogen storage/heat emitter element in the reactor. Nominal maximum hydrogen capacity of the reactor is 850 st.l. with though resulting effective volume of cycled hydrogen ended up to be around 240-250 st.l. The reactor type and intermetallic alloy, which were used in the series of experiments, proved to be somewhat suitable for the task, but more advanced heat exchange design along with selection of different type of IMC promise to increase the cycled effective volume along with the system dynamics, resulting in greater thermal energy power output. |
| Author | Bezdudny, A V Borzenko, V I Blinov, D V |
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| References_xml | – volume: 45 year: 2004 ident: JPCS_2039_1_012004bib4 article-title: A review on phase change energy storage materials and applications publication-title: Energ ConversManag contributor: fullname: Farid – volume: 39 start-page: 19361 year: 2014 ident: JPCS_2039_1_012004bib16 article-title: Experimental investigations and a simple balance model of a metal hydride reactor publication-title: Int J Hydrogen Energy doi: 10.1016/j.ijhydene.2014.07.048 contributor: fullname: Blinov – year: 1997 ident: JPCS_2039_1_012004bib6 contributor: fullname: Shanmugasundaram – volume: 25 year: 2005 ident: JPCS_2039_1_012004bib5 article-title: Study on a PCM heat storage system for rapid heat supply publication-title: Int J Appl Thermal Eng contributor: fullname: Jinjia – volume: 44 start-page: 6086 year: 2019 ident: JPCS_2039_1_012004bib10 article-title: Hydrogen sorption properties of metal hydride beds: Effect of internal stresses caused by reactor geometry publication-title: International Journal of Hydrogen Energy doi: 10.1016/j.ijhydene.2019.01.052 contributor: fullname: Borzenko – volume: 39 year: 2013 ident: JPCS_2039_1_012004bib7 article-title: Thermal energy storage technologies and systems for concentrating solar power plants publication-title: Prog Energy Combust Sci doi: 10.1016/j.pecs.2013.02.001 contributor: fullname: Kuravi – volume: 98 year: 2010 ident: JPCS_2039_1_012004bib2 article-title: Keeping the energy debate clean: how do we supply the world’s energy needs? publication-title: Proc IEEE doi: 10.1109/JPROC.2009.2035162 contributor: fullname: Abbott – year: 2018 ident: JPCS_2039_1_012004bib13 contributor: fullname: Borzenko – volume: 25 year: 2000 ident: JPCS_2039_1_012004bib8 article-title: The application of Mg based metal hydrides as heat energy storage systems publication-title: Int J Hydrogen Energy doi: 10.1016/S0360-3199(99)00057-9 contributor: fullname: Reiser – volume: 183 start-page: 1244 year: 2019 ident: JPCS_2039_1_012004bib11 article-title: Novel kW scale hydrogen energy storage system utilizing fuel cell exhaust air for hydrogen desorption process from metal hydride reactor publication-title: Energy doi: 10.1016/j.energy.2019.07.021 contributor: fullname: Khayrullina – volume: 44 start-page: 19168 year: 2019 ident: JPCS_2039_1_012004bib12 article-title: Air heated metal hydride energy storage system design and experiments for microgrid applications publication-title: International Journal of Hydrogen Energy doi: 10.1016/j.ijhydene.2018.05.145 contributor: fullname: Khayrullina – volume: 37 start-page: 13843 year: 2012 ident: JPCS_2039_1_012004bib9 article-title: Influence of impurities on hydrogen absorption in a metal hydride reactor publication-title: International Journal of Hydrogen Energy doi: 10.1016/j.ijhydene.2012.04.078 contributor: fullname: Dunikov – volume: 1128 year: 2018 ident: JPCS_2039_1_012004bib15 article-title: Experimental investigations of thermal processes in the flow-throw hydrogen purification reactor publication-title: Journal of Physics: Conference Series contributor: fullname: Blinov – volume: 19 start-page: 2427 year: 2017 ident: JPCS_2039_1_012004bib1 article-title: Storing solar energy with chemistry: the role of thermochemical storage in concentrating solar power publication-title: Green Chem doi: 10.1039/C7GC00023E contributor: fullname: Peng – volume: 41 start-page: 21787 year: 2016 ident: JPCS_2039_1_012004bib14 article-title: Biohydrogen purification using metal hydride technologies publication-title: International Journal of Hydrogen Energy doi: 10.1016/j.ijhydene.2016.08.190 contributor: fullname: Dunikov – volume: 113 start-page: 422 year: 2014 ident: JPCS_2039_1_012004bib3 article-title: Analysis and comparison between a concentrating solar and a photovoltaic power plant publication-title: Appl Energy doi: 10.1016/j.apenergy.2013.07.046 contributor: fullname: Desideri |
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