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Strelova S.V.
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V.43. N19. P.1664-1674. DOI: 10.1080/01457632.2021.2000753
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Adsorbent Coatings for Adsorption Heat Transformation: From Synthesis to Application
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V.63. N5. P.671–843. DOI: 10.1134/S0022476622050018
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Combining the Psychrometric Chart of Humid Air with Water Adsorption Isosters: Analysis of the Ventireg Process
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Adsorptive Systems for Heat Transformation and Heat Storage Applications
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V.15. N2. 617
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MIL-160 as an Adsorbent for Atmospheric Water Harvesting
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V.14. N12. 3586
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Studies on a Metal Hydride Based Year-Round Comfort Heating and Cooling System for Extreme Climates
Energy and Buildings. 2021.
V.244. 111042
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Yan T.
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Ultrahigh-Energy-Density Sorption Thermal Battery Enabled by Graphene Aerogel-Based Composite Sorbents for Thermal Energy Harvesting from Air
ACS Energy Letters. 2021.
V.6. N5. P.1795-1802. DOI: 10.1021/acsenergylett.1c00284
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Gordeeva L.G.
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Metal-Organic Frameworks for Energy Conversion and Water Harvesting: A Bridge Between Thermal Engineering and Material Science
Nano Energy. 2021.
V.84. 105946
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The Impact of Framework Flexibility and Defects on the Water Adsorption in CAU-10-H
PCCP: Physical Chemistry Chemical Physics. 2021.
V.23. N37. P.21329-21337. DOI: 10.1039/d1cp03242a
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Solovyeva M.V.
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Water Vapor Adsorption on CAU-10-X: Effect of Functional Groups on Adsorption Equilibrium and Mechanisms
Langmuir. 2021.
V.37. N2. P.693–702. DOI: 10.1021/acs.langmuir.0c02729
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Brancato V.
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Experimental Comparison of Innovative Composite Sorbents for Space Heating and Domestic Hot Water Storage
Crystals. 2021.
V.11. N5. 476
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Water Dynamics in NH2-MIL-125: Insights from a Combined 1H NMR Relaxometry and Computational Investigation
The Journal of Physical Chemistry C. 2021.
V.125. N26. P.14416-14429. DOI: 10.1021/acs.jpcc.1c02045
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Girnik I.
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New Adsorption Method for Moisture and Heat Exchange in Ventilation Systems in Cold Countries:
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Energies. 2020.
V.13. N6. 1386
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16
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Gordeeva L.G.
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Potable Water Extraction from the Atmosphere: Potential of MOFs
Renewable Energy. 2020.
V.148. P.72-80. DOI: 10.1016/j.renene.2019.12.003
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Shkatulov A.
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Novel Adsorption Method for Moisture and Heat Recuperation in Ventilation: Composites “LiCl/matrix” Tailored for Cold Climate
Energy. 2020.
V.201. 117595
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18
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Girnik I.
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Activated Carbons as Methanol Adsorbents for a New Cycle “Heat from Cold”
Fibers. 2020.
V.8. N8. 51
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A Close View of the Organic Linker in a MOF: Structural Insights from a Combined 1H NMR Relaxometry and Computational Investigation
PCCP: Physical Chemistry Chemical Physics. 2020.
V.22. N27. P.15222-15230. DOI: 10.1039/d0cp01863e
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Frazzica A.
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Development of “Salt in Porous Matrix” Composites Based on LiCl for Sorption Thermal Energy Storage
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V.208. 118338
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Brancato V.
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Experimental Characterization of the LiCl/Vermiculite Composite for Sorption Heat Storage Applications
International Journal of Refrigeration. 2019.
V.105. P.92-100. DOI: 10.1016/j.ijrefrig.2018.08.006
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22
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Brancato V.
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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
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23
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Solovyeva M.V.
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Gordeeva L.G.
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“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
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24
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Grekova A.
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Adsorption Transformation of Heat: The Applicability in Various Climatic Zones of the Russian Federation
Applied Sciences (Switzerland). 2019.
V.9. N1. 139
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25
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Gordeeva L.G.
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Adsorptive Heat Storage and Amplification: New Cycles and Adsorbents
Energy. 2019.
V.167. P.440-453. DOI: 10.1016/j.energy.2018.10.132
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26
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Grekova A.
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“LiCl/vermiculite - Methanol” as Working Pair for Adsorption Heat Storage: Adsorption Equilibrium and Dynamics
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V.186. 115775
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27
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Grekova A.D.
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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
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28
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Solovyeva M.V.
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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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29
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A Thermodynamic Analysis of a New Cycle for Adsorption Heat Pump “Heat from Cold”: Effect of the Working Pair on Cycle Efficiency
Thermal Engineering. 2018.
V.65. N8. P.524-530. DOI: 10.1134/s0040601518080098
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30
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Tokarev M.M.
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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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31
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Gordeeva L.G.
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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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32
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Tokarev M.M.
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Grekova A.D.
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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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Henninger S.K.
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Gordeeva L.
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Fröhlich D.
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Grekova A.D.
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Aristov Y.
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New Materials for Adsorption Heat Transformation and Storage
Renewable Energy. 2017.
V.110. NSI. P.59-68. DOI: 10.1016/j.renene.2016.08.041
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Lu Z.
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Novel Multi-Step Sorption-Reaction Energy Storage Cycles for Air Conditioning and Temperature Upgrading
Energy. 2017.
V.118. P.464-472. DOI: 10.1016/j.energy.2016.10.011
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35
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Girnik I.S.
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Dynamic Optimization of Adsorptive Chillers: Compact Layer vs. Bed of Loose Grains
Applied Thermal Engineering. 2017.
V.125. P.823-829. DOI: 10.1016/j.applthermaleng.2017.06.141
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36
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Solovyeva M.V.
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NH2-MIL-125 as Promising Adsorbent for Adsorptive Cooling: Water Adsorption Dynamics
Applied Thermal Engineering. 2017.
V.116. P.541-548. DOI: 10.1016/j.applthermaleng.2017.01.080
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37
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Grekova A.D.
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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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38
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Grekova A.D.
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Tokarev M.M.
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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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39
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NH2-MIL-125 as a Promising Material for Adsorptive Heat Transformation and Storage
Energy. 2016.
V.100. P.18-24. DOI: 10.1016/j.energy.2016.01.034
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40
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Grekova A.
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Composite Sorbents “Li/Ca Halogenides Inside Multi-Wall Carbon Nano-Tubes” for Thermal Energy Storage
Solar Energy Materials and Solar Cells. 2016.
V.155. P.176-183. DOI: 10.1016/j.solmat.2016.06.006
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41
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Brancato V.
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Dynamics Study of Ethanol Adsorption on Microporous Activated Carbon for Adsorptive Cooling Applications
Applied Thermal Engineering. 2016.
V.105. P.26-38. DOI: 10.1016/j.applthermaleng.2016.05.148
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Ethanol Adsorption onto Carbonaceous and Composite Adsorbents for Adsorptive Cooling System
Energy. 2015.
V.84. P.177-185. DOI: 10.1016/j.energy.2015.02.077
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Grekova A.D.
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Shmakov A.N.
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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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44
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Dynamic Study of Methanol Adsorption on Activated Carbon ACM-35.4 for Enhancing the Specific Cooling Power of Adsorptive Chillers
Applied Energy. 2014.
V.117. P.127-133. DOI: 10.1016/j.apenergy.2013.11.073
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Adsorption Cooling Utilizing the “LiBr/Silica – Ethanol” Working Pair: Dynamic Pptimization of the Adsorber/Heat Exchanger Unit
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V.75. P.390-399. DOI: 10.1016/j.energy.2014.07.088
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Composites “Binary Salts in porous Matrix” for Adsorption Heat Transformation
Applied Thermal Engineering. 2013.
V.50. N2. P.1633-1638. DOI: 10.1016/j.applthermaleng.2011.07.040
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Veselovskaya J.V.
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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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Composites “Salt Inside Porous Matrix” for Adsorption Heat Transformation: A Current State of the Art and New Trends
International Journal of Low Carbon Technologies. 2012.
V.7. N4. P.288-302. DOI: 10.1093/ijlct/cts050
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Gordeeva L.G.
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New Adsorbents of Methanol for the Intensification of Methanol Synthesis
Reaction Kinetics, Mechanisms and Catalysis. 2012.
V.105. P.391-400. DOI: 10.1007/s11144-011-0379-z
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50
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Physicochemical Bases of Autonomous Maintenance of Humidity and Temperature in Closed Spaces
Journal of Engineering Physics and Thermophysics. 2012.
V.85. N5. P.977-986. DOI: 10.1007/s10891-012-0737-3
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