41
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Brancato V.
, Gordeeva L.G.
, Grekova A.D.
, Sapienza A.
, Vasta S.
, Frazzica A.
, Aristov Y.I.
Water Adsorption Equilibrium and Dynamics of LICL/MWCNT/PVA Composite for Adsorptive Heat Storage
Solar Energy Materials and Solar Cells. 2019.
V.193. P.133-140. DOI: 10.1016/j.solmat.2019.01.001
WOS
Scopus
РИНЦ
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42
|
Solovyeva M.V.
, Gordeeva L.G.
, Aristov Y.I.
“MIL-101(Cr)–Methanol” as Working Pair for Adsorption Heat Transformation Cycles: Adsorbent Shaping, Adsorption Equilibrium and Dynamics
Energy Conversion and Management. 2019.
V.182. P.299-306. DOI: 10.1016/j.enconman.2018.12.065
WOS
Scopus
РИНЦ
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43
|
Aristov Y.I.
A New Adsorptive Cycle "HeCol" for Upgrading the Ambient Heat: The Current State of the Art
International Journal of Refrigeration. 2019.
V.105. P.19-32. DOI: 10.1016/j.ijrefrig.2018.12.015
WOS
Scopus
РИНЦ
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44
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Grekova A.
, Gordeeva L.
, Sapienza A.
, Aristov Y.
Adsorption Transformation of Heat: The Applicability in Various Climatic Zones of the Russian Federation
Applied Sciences (Switzerland). 2019.
V.9. N1. 139
:1-12. DOI: 10.3390/app9010139
WOS
Scopus
РИНЦ
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45
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Shkatulov A.
, Takasu H.
, Kato Y.
, Aristov Y.
Thermochemical Energy Storage by LiNO3-Doped Mg(OH)2: Rehydration Study
Journal of Energy Storage. 2019.
V.22. P.302-310. DOI: 10.1016/j.est.2019.01.014
WOS
Scopus
РИНЦ
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46
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Shkatulov A.I.
, Kim S.T.
, Miura H.
, Kato Y.
, Aristov Y.I.
Adapting the MgO-CO2 Working Pair for Thermochemical Energy Storage by Doping with Salts
Energy Conversion and Management. 2019.
V.185. P.473-481. DOI: 10.1016/j.enconman.2019.01.056
WOS
Scopus
РИНЦ
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47
|
Grekova A.D.
, Gordeeva L.G.
, Lu Z.
, Wang R.
, Aristov Y.I.
Composite “LiCl/MWCNT” as Advanced Water Sorbent for Thermal Energy Storage: Sorption Dynamics
Solar Energy Materials and Solar Cells. 2018.
V.176. P.273-279. DOI: 10.1016/j.solmat.2017.12.011
WOS
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РИНЦ
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48
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Sapienza A.
, Frazzica A.
, Freni A.
, Aristov Y.
Measurement of Adsorption Dynamics: An Overview
Monography chapter
Dynamics of Adsorptive Systems for Heat Transformation.
– Springer International Publishing.,
2018.
– C.19-29. – ISBN 9783319512853. DOI: 10.1007/978-3-319-51287-7_2
WOS
Scopus
РИНЦ
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49
|
Sapienza A.
, Frazzica A.
, Freni A.
, Aristov Y.
Experimental Findings: Main Factors Affecting the Adsorptive Temperature-Driven Cycle Dynamics
Monography chapter
Dynamics of Adsorptive Systems for Heat Transformation.
– Springer International Publishing.,
2018.
– C.31-68. – ISBN 9783319512853. DOI: 10.1007/978-3-319-51287-7_3
WOS
Scopus
РИНЦ
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50
|
Sapienza A.
, Frazzica A.
, Freni A.
, Aristov Y.
Optimization of an “Adsorbent/Heat Exchanger” Unit
Monography chapter
Dynamics of Adsorptive Systems for Heat Transformation.
– Springer International Publishing.,
2018.
– C.69-87. – ISBN 9783319512853. DOI: 10.1007/978-3-319-51287-7_4
WOS
Scopus
РИНЦ
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51
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Solovyeva M.V.
, Gordeeva L.G.
, Krieger T.A.
, Aristov Y.I.
MOF-801 as a Promising Material for Adsorption Cooling: Equilibrium and Dynamics of Water Adsorption
Energy Conversion and Management. 2018.
V.174. P.356-363. DOI: 10.1016/j.enconman.2018.08.032
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РИНЦ
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52
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Okunev B.N.
, Voskresensky N.M.
, Girnik I.S.
, Aristov Y.I.
Thermodynamic Analysis of the New Adsorption Cycle “HeCol” for Ambient Heat Upgrading: Ideal Heat Transfer
Journal of Engineering Thermophysics (Russian Journal of Engineering Thermophysics до 2001 года). 2018.
V.27. N3. P.327-338. DOI: 10.1134/s1810232818030086
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РИНЦ
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53
|
Shkatulov A.I.
, Aristov Y.
Thermochemical Energy Storage using LiNO3-Doped Mg(OH)2: A Dehydration Study
Energy Technology. 2018.
V.6. N9. P.1844-1851. DOI: 10.1002/ente.201800050
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РИНЦ
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54
|
Tokarev M.M.
, Gordeeva L.G.
, Shkatulov A.I.
, Aristov Y.I.
Testing the Lab-Scale "Heat from Cold" Prototype with the "LiCl/Silica - Methanol" Working Pair
Energy Conversion and Management. 2018.
V.159. P.213-220. DOI: 10.1016/j.enconman.2017.12.099
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РИНЦ
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55
|
Gordeeva L.G.
, Tokarev M.M.
, Aristov Y.I.
New Adsorption Cycle for Upgrading the Ambient Heat
Theoretical Foundations of Chemical Engineering. 2018.
V.52. N2. P.195-205. DOI: 10.1134/S0040579518020069
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РИНЦ
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56
|
Tokarev M.M.
, Gordeeva L.G.
, Grekova A.D.
, Aristov Y.I.
Adsorption Cycle “Heat From Cold” for Upgrading the Ambient Heat: The Testing a Lab-Scale Prototype with the Composite sorbent CaClBr/Silica
Applied Energy. 2018.
V.211. P.136-145. DOI: 10.1016/j.apenergy.2017.11.015
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РИНЦ
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57
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Гордеева Л.Г.
, Токарев М.М.
, Аристов Ю.И.
Новый адсорбционный цикл преобразования теплоты окружающей среды
Теоретические основы химической технологии. 2018.
Т.52. №2. С.171-182. DOI: 10.7868/S0040357118020057
РИНЦ
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58
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Aristov Y.I.
Adsorptive Transformation of Ambient Heat: A New Cycle
Applied Thermal Engineering. 2017.
V.124. P.521-524. DOI: 10.1016/j.applthermaleng.2017.06.051
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РИНЦ
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59
|
Aristov Y.I.
“Heat from Cold” – a New Cycle for Upgrading the Ambient Heat: Adsorbent Optimal from the Dynamic Point of View
Applied Thermal Engineering. 2017.
V.124. P.1189-1193. DOI: 10.1016/j.applthermaleng.2017.06.107
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РИНЦ
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60
|
Grekova A.D.
, Gordeeva L.G.
, Aristov Y.I.
Composite “LiCl/Vermiculite” as Advanced Water Sorbent for Thermal Energy Storage
Applied Thermal Engineering. 2017.
V.124. P.1401-1408. DOI: 10.1016/j.applthermaleng.2017.06.122
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РИНЦ
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