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1
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Nizovskii A.I.
,
Matvienko A.A.
,
Rogozhnikov V.N.
,
Tokarev M.M.
,
Bukhtiyarov V.I.
Hydrogen Cartridge Material Based on Aluminum Commercial Alloys Activated by Ga-In Eutectic
Materials Today: Proceedings. 2020.
V.25. N3. P.505-508. DOI: 10.1016/j.matpr.2020.01.045
WOS
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2
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Girnik I.
,
Tokarev M.
,
Aristov Y.
Thermodynamic Analysis of Working Fluids for a New “Heat from Cold” Cycle
Entropy. 2020.
V.22. N8. 808
:1-19. DOI: 10.3390/e22080808
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3
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Tokarev M.M.
,
Zlobin A.A.
,
Aristov Y.I.
A New Version of the Large Pressure Jump (T-LPJ) Method for Dynamic Study of Pressure-Initiated Adsorptive Cycles for Heat Storage and Transformation
Energy. 2019.
V.179. P.542-548. DOI: 10.1016/j.energy.2019.04.164
WOS
Scopus
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4
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Tokarev M.
A Double-Bed Adsorptive Heat Transformer for Upgrading Ambient Heat: Design and First Tests
Energies. 2019.
V.12. N21. 4037
:1-14. DOI: 10.3390/en12214037
WOS
Scopus
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5
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Kowsari M.M.
,
Niazmand H.
,
Tokarev M.M.
Bed Configuration Effects on the Finned Flat-Tube Adsorption Heat Exchanger Performance: Numerical Modeling and Experimental Validation
Applied Energy. 2018.
V.213. P.540-554. DOI: 10.1016/j.apenergy.2017.11.019
WOS
Scopus
РИНЦ
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6
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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
WOS
Scopus
РИНЦ
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7
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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
WOS
Scopus
РИНЦ
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8
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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
WOS
Scopus
РИНЦ
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9
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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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10
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Tokarev M.M.
,
Aristov Y.I.
A New Version of the Large Temperature Jump Method: The Thermal Response (T–LTJ)
Energy. 2017.
V.140. N1. P.481-487. DOI: 10.1016/j.energy.2017.08.093
WOS
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11
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Grekova A.D.
,
Girnik I.S.
,
Nikulin V.V.
,
Tokarev M.M.
,
Gordeeva L.G.
,
Aristov Y.I.
New Composite Sorbents of Water and Methanol “Salt in Anodic Alumina”: Evaluation for Adsorption Heat Transformation
Energy. 2016.
V.106. P.231-239. DOI: 10.1016/j.energy.2016.03.050
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12
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Grekova A.D.
,
Veselovskaya J.V.
,
Tokarev M.M.
,
Krieger T.A.
,
Shmakov A.N.
,
Gordeeva L.G.
Ammonia Sorption on the Composites "(BaCl2 + BaBr2) Inside Vermiculite Pores"
Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2014.
V.448. P.169-174. DOI: 10.1016/j.colsurfa.2014.02.025
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13
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Veselovskaya J.V.
,
Tokarev M.M.
,
Grekova A.D.
,
Gordeeva L.G.
Novel Ammonia Sorbents ''Porous Matrix Modified by Active Salt" for Adsorptive Heat Transformation: 6. The Ways of Adsorption Dynamics Enhancement
Applied Thermal Engineering. 2012.
V.37. P.87-94. DOI: 10.1016/j.applthermaleng.2012.01.004
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РИНЦ
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14
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Grekova A.D.
,
Veselovskaya J.V.
,
Tokarev M.M.
,
Gordeeva L.G.
Novel Ammonia Sorbents “Porous Matrix Modified by Active Salt” For Adsorptive Heat Transformation: 5. Designing The Composite Adsorbent For Ice Makers
Applied Thermal Engineering. 2012.
V.37. P.80-86. DOI: 10.1016/j.applthermaleng.2012.01.005
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Scopus
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15
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Veselovskaya J.V.
,
Tokarev M.M.
Novel Ammonia Sorbents "Porous Matrix Modified by Active Salt" for Adsorptive Heat Transformation: 4. Dynamics of Quasi-Isobaric Ammonia Sorption and Desorption on BaCl2/Vermiculite
Applied Thermal Engineering. 2011.
V.31. N4. P.566-572. DOI: 10.1016/j.applthermaleng.2010.10.018
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Scopus
РИНЦ
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16
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Aristov Y.I.
,
Kovalevskaya Y.A.
,
Tokarev M.M.
,
Paukov I.E.
Low Temperature Heat Capacity of the System “Silica Gel–Calcium Chloride–Water”
Journal of Thermal Analysis and Calorimetry. 2011.
V.103. N2. P.773-778. DOI: 10.1007/s10973-010-0981-8
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РИНЦ
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17
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Tokarev M.M.
,
Veselovskaya J.V.
,
Yanagi H.
,
Aristov Y.I.
Novel Ammonia Sorbents "Porous Matrix Modified by Active Salt" for Adsorptive Heat Transformation: 2. Calcium Chloride in ACF Felt
Applied Thermal Engineering. 2010.
V.30. N8-9. P.845-849. DOI: 10.1016/j.applthermaleng.2009.12.016
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РИНЦ
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18
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Veselovskaya J.V.
,
Critoph R.E.
,
Thorpe R.
,
Metcalf S.
,
Tokarev M.M.
,
Aristov Y.I.
Novel Ammonia Sorbents "Porous Matrix Modified by Active Salt" for Adsorptive Heat Transformation: 3. Testing of "BaCl2/Vermiculite" Composite in a Lab-Scale Adsorption Chiller
Applied Thermal Engineering. 2010.
V.30. N10. P.1188-1192. DOI: 10.1016/j.applthermaleng.2010.01.035
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РИНЦ
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19
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Veselovskaya J.V.
,
Tokarev M.M.
,
Aristov Y.I.
Novel Ammonia Sorbents “Porous Matrix Modified by Active Salt” for Adsorptive Heat Transformation: 1. Barium Chloride in Various Matrices
Applied Thermal Engineering. 2010.
V.30. N6-7. P.584-589. DOI: 10.1016/j.applthermaleng.2009.11.001
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РИНЦ
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20
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Aristov Y.I.
,
Tokarev M.M.
,
Sharonov V.E.
Universal Relation Between the Boundary Temperatures of a Basic Cycle of Sorption Heat Machines
Chemical Engineering Science. 2008.
V.63. N11. P.2907-2912. DOI: 10.1016/j.ces.2008.03.011
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РИНЦ
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21
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Freni A.
,
Russo G.
,
Vasta S.
,
Tokarev M.M.
,
Aristov Y.I.
,
Restuccia G.
An Advanced Solid Sorption Chiller Using SWS-1L
Applied Thermal Engineering. 2007.
V.27. N13. P.2200-2204. DOI: 10.1016/j.applthermaleng.2005.07.023
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22
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Aristov Y.I.
,
Tokarev M.M.
,
Freni A.
,
Glaznev I.S.
,
Restuccia G.
Kinetics of Water Adsorption on Silica Fuji Davison RD
Microporous and Mesoporous Materials. 2006.
V.96. N1-3. P.65-71. DOI: 10.1016/j.micromeso.2006.06.008
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23
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Tokarev M.M.
,
Okunev B.N.
,
Safonov M.S.
,
Kheifets L.I.
,
Aristov Y.I.
Approximation Equations for Describing the Sorption Equilibrium Between Water Vapor and a CaCl2-in-Silica Gel Composite Sorbent
Russian Journal of Physical Chemistry A. 2005.
V.79. N9. P.1490-1493.
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24
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Токарев М.М.
,
Окунев Б.Н.
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Сафонов М.С.
,
Хейфец Л.И.
,
Аристов Ю.И.
Аппроксимирующие уравнения сорбционного равновесия паров воды с композитным сорбентом "СаС12 в силикагеле"
Журнал физической химии. 2005.
Т.79. №9. С.1680-1683.
RSCI
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25
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Restuccia G.
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Freni A.
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Vasta S.
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Токарев М.М.
,
Аристов Ю.И.
Экологически чистый адсорбционный холодильник на основе композита "CaCl2 в силикагеле": лабораторный прототип
Химия в интересах устойчивого развития. 2004.
Т.12. №2. С.211-216.
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26
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Restuccia G.
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Freni A.
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Vasta S.
,
Tokarev M.M.
,
Aristov Y.I.
Ecologically Sound Adsorption Chiller Based on Composite CaCl2 in Silica Gel: Laboratory Prototype
Chemistry for Sustainable Development. 2004.
V.12. N2. P.211-216.
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27
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Tokarev M.
,
Gordeeva L.
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Romannikov V.
,
Glaznev I.
,
Aristov Y.
New Composite Sorbent CaCl2 in Mesopores for Sorption Cooling/Heating
International Journal of Thermal Sciences. 2002.
V.41. N5. P.470-474. DOI: 10.1016/S1290-0729(02)01339-X
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28
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Freni A.
,
Tokarev M.M.
,
Restuccia G.
,
Okunev A.G.
,
Aristov Y.I.
Thermal Conductivity of Selective Water Sorbents under the Working Conditions of a Sorption Chiller
Applied Thermal Engineering. 2002.
V.22. N14. P.1631-1642. DOI: 10.1016/S1359-4311(02)00076-5
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29
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Tokarev M.M.
,
Freni A.
,
Restuccia G.
,
Aristov Y.I.
Selective Water Sorbents for Multiple Applications. 12. Water Sorption Equilibrium at Elevated Temperature
Reaction Kinetics and Catalysis Letters. 2002.
V.76. N2. P.295-301. DOI: 10.1023/A:1016588028543
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30
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Pankratʹev Y.D.
,
Tokarev M.M.
,
Aristov Y.I.
Heats of Water Sorption on Silica Gel Containing CaCl2 and LiBr
Russian Journal of Physical Chemistry A. 2001.
V.75. N5. P.806-810.
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31
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Панкратьев Ю.Д.
,
Токарев М.М.
,
Аристов Ю.И.
Теплоты сорбции воды на силикагеле, содержащем CaCl2 и LiBr
Журнал физической химии. 2001.
Т.75. №5. С.902-906.
Scopus
РИНЦ
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32
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Koptyug I.V.
,
Khitrina L.Y.
,
Aristov Y.I.
,
Tokarev M.M.
,
Iskakov K.T.
,
Parmon V.N.
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Sagdeev R.Z.
An 1H NMR Microimaging Study of Water Vapor Sorption by Individual Porous Pellets
The Journal of Physical Chemistry B. 2000.
V.104. N8. P.1695-1700. DOI: 10.1021/jp9922763
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33
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Aristov Y.I.
,
Restuccia G.
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Tokarev M.M.
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Cacciola G.
Selective Water Sorbents for Multiple Applications, 10. Energy Storage Ability
Reaction Kinetics and Catalysis Letters. 2000.
V.69. N2. P.345-353. DOI: 10.1023/A:1005616420331
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34
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Aristov Y.I.
,
Restuccia G.
,
Tokarev M.M.
,
Buerger H.-D.
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Freni A.
Selective Water Sorbents for Multiple Applications. 11. CaCl2 Confined to Expanded Vermiculite
Reaction Kinetics and Catalysis Letters. 2000.
V.71. N2. P.377-384. DOI: 10.1023/A:1010351815698
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35
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Gordeeva L.G.
,
Restuccia G.
,
Tokarev M.M.
,
Cacciola G.
,
Aristov Y.I.
Adsorption Properties of the Lithium Bromide-Water System in Pores of Extended Graphite, Sibunit, and Alumna
Russian Journal of Physical Chemistry A. 2000.
V.74. N12. P.2016-2020.
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36
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Гордеева Л.Г.
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Restuccia G.
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Токарев М.М.
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Cacciola G.
,
Аристов Ю.И.
Адсорбционные свойства системы «бромид лития - вода» в порах расширенного графита, Сибунита и оксида алюминия
Журнал физической химии. 2000.
Т.74. №12. С.2211-2215.
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37
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Aristov Y.I.
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Tokarev M.M.
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Gordeeva L.G.
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Snytnikov V.N.
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Parmon V.N.
New Composite Sorbents for Solar-Driven Technology of Fresh Water Production from the Atmosphere
Solar Energy. 1999.
V.66. N2. P.165-168. DOI: 10.1016/S0038-092X(98)00110-8
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38
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Токарев М.М.
,
Козлова С.Г.
,
Габуда С.П.
,
Аристов Ю.И.
ЯМР 1H в нанокристаллах CaCl2·xH2O и изобары сорбции воды в системе CaCl2-силикагель
Журнал структурной химии. 1998.
Т.39. №2. С.261-275.
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39
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Tokarev M.M.
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Kozlova S.G.
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Gabuda S.P.
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Aristov Y.I.
1 H NMR in CaCl2 ·x H2 O Nanocrystals and Water Sorption Isobars in a CaCl2 -Silica Gel System
Journal of Structural Chemistry. 1998.
V.39. N2. P.212-216. DOI: 10.1007/BF02873620
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40
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Gordeeva L.G.
,
Tokarev M.M.
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Parmon V.N.
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Aristov Y.I.
Selective Water Sorbents for Multiple Application, 6. Freshwater Production from the Atmosphere
Reaction Kinetics and Catalysis Letters. 1998.
V.65. N1. P.153-159. DOI: 10.1007/BF02475329
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41
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Aristov Y.I.
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Restuccia G.
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Cacciola G.
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Tokarev M.M.
Selective Water Sorbents for Multiple Applications, 7. Heat Conductivity of CaCl2 - SiO2 Composites
Reaction Kinetics and Catalysis Letters. 1998.
V.65. N2. P.277-284. DOI: 10.1007/BF02475265
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42
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Aristov Y.I.
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Di Marco G.
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Tokarev M.M.
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Parmon V.N.
Selective Water Sorbents for Multiple Applications, 3. CaCl2 Solution Confined in Micro- and Mesoporous Silica Gels: Pore Size Effect on the "Solidification-Melting" Diagram
Reaction Kinetics and Catalysis Letters. 1997.
V.61. N1. P.147-154. DOI: 10.1007/BF02477527
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43
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Tokarev M.M.
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Selective Water Sorbents for Multiple Applications, 4. CaCl2 Confined in Silica Gel Pores: Sorption/Desorption Kinetics
Reaction Kinetics and Catalysis Letters. 1997.
V.62. N1. P.143-150. DOI: 10.1007/BF02475725
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44
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Aristov Y.I.
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Tokarev M.M.
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DiMarco G.
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Cacciola G.
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Restuccia D.
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Parmon V.N.
Vapor-Condensed Matter and Melting-Solidification Equilibria in the Calcium Chloride-Water System Dispersed in Silica Gel Pores
Russian Journal of Physical Chemistry A. 1997.
V.71. N2. P.197-201.
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45
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Aristov Y.I.
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Tokarev M.M.
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Cacciola G.
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Heat Capacity and Heat Conductivity of Aqueous Solutions of Calcium Chloride in Silica Gel Pores
Russian Journal of Physical Chemistry A. 1997.
V.71. N3. P.327-330.
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46
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Аристов Ю.И.
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Рестучча Д.
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Пармон В.Н.
Равновесия пар-конденсированное состояние и плавление-отвердевание в системе хлорид кальция-вода, диспергированной в порах силикагеля
Журнал физической химии. 1997.
Т.71. №2. С.253-258.
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47
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Аристов Ю.И.
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Теплоемкость и теплопроводность водных растворов хлорида кальция в порах силикагеля
Журнал физической химии. 1997.
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48
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Aristov Y.I.
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Selective Water Sorbents for Multiple Applications, 1. CaCl2 Confined in Mesopores of Silica Gel: Sorption Properties
Reaction Kinetics and Catalysis Letters. 1996.
V.59. N2. P.325-333. DOI: 10.1007/BF02068130
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49
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Aristov Y.I.
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Tokarev M.M.
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Selective Water Sorbents for Multiple Applications, 2. CaCl2 Confined in Micropores of Silica Gel: Sorption Properties
Reaction Kinetics and Catalysis Letters. 1996.
V.59. N2. P.335-342. DOI: 10.1007/BF02068131
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50
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Levitskij E.A.
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Tokarev M.M.
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Parmon V.N.
"Chemical Heat Accumulators": A New Approach to Accumulating Low Potential Heat
Solar Energy Materials and Solar Cells. 1996.
V.44. N3. P.219-235. DOI: 10.1016/0927-0248(96)00010-4
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