| 1 |
Performance comparison of a two-bed solar-driven adsorption chiller with optimal fixed and adaptive cycle times using a silica gel/water working pair
ul Qadir N, Said SAM, Mansour RB, Imran H, Khan M
Renewable Energy, 149, 1000, 2020 |
| 2 |
MOF-801 as a promising material for adsorption cooling: Equilibrium and dynamics of water adsorption
Solovyeva MV, Gordeeva LG, Krieger TA, Aristov YI
Energy Conversion and Management, 174, 356, 2018 |
| 3 |
Evaluation of low-pressure flooded evaporator performance for adsorption chillers
Thimmaiah PC, Sharafian A, Rouhani M, Huttema W, Bahrami M
Energy, 122, 144, 2017 |
| 4 |
A new version of the Large Temperature Jump method: The thermal response (T-LTJ)
Tokarev MM, Aristov YI
Energy, 140, 481, 2017 |
| 5 |
Experimental chiller with silica gel: Adsorption kinetics analysis and performance evaluation
Vodianitskaia PJ, Soares JJ, Melo H, Gurgel JM
Energy Conversion and Management, 132, 172, 2017 |
| 6 |
Dynamic optimization of adsorptive chillers: The "AQSOA(TM)-FAM-Z02-Water" working pair
Girnik IS, Aristov YI
Energy, 106, 13, 2016 |
| 7 |
Dynamics of water vapour adsorption by a monolayer of loose AQSOA((TM))-FAM-Z02 grains: Indication of inseparably coupled heat and mass transfer
Girnik IS, Aristov YI
Energy, 114, 767, 2016 |
| 8 |
Dynamic study of methanol adsorption on activated carbon ACM-35.4 for enhancing the specific cooling power of adsorptive chillers
Gordeeva L, Aristov Y
Applied Energy, 117, 127, 2014 |
| 9 |
Adsorption cooling utilizing the "LiBr/silica - ethanol" working pair: Dynamic optimization of the adsorber/heat exchanger unit
Gordeeva L, Frazzica A, Sapienza A, Aristov Y, Freni A
Energy, 75, 390, 2014 |
| 10 |
A resorption refrigerator driven by low grade thermal energy
Bao HS, Wang RZ, Wang LW
Energy Conversion and Management, 52(6), 2339, 2011 |
