1 Singh, O. K., "Thermoeconomic evaluation and optimization of a Brayton–Rankine–Kalina combined triple power cycle" 71 : 32-42, 2013
2 Mohammadi, A., "Thermoeconomic analysis and multiobjective optimization of a combined gas turbine, steam, and organic Rankine cycle" 6 (6): 506-522, 2018
3 Dhahad, H. A., "Thermodynamic and thermoeconomic analysis of innovative integration of Kalina and absorption refrigeration cycles for simultaneously cooling and power generation" 203 : 112241-, 2020
4 Parikhani, T., "Thermodynamic and thermoeconomic analysis of a novel ammonia-water mixture combined cooling, heating, and power(CCHP)cycle" 145 : 1158-1175, 2020
5 Rostamzadeh, H., "Thermodynamic and thermoeconomic analysis and optimization of a novel dual-loop power/refrigeration cycle" 138 : 1-17, 2018
6 Ghaebi, H., "Thermodynamic and thermoeconomic analysis and optimization of a novel combined cooling and power(CCP)cycle by integrating of ejector refrigeration and Kalina cycles" 139 : 262-276, 2017
7 Liu, Z., "Thermodynamic and parametric analysis of a coupled LiBr/H2O absorption chiller/Kalina cycle for cascade utilization of low-grade waste heat" 205 : 112370-, 2020
8 Abam, F. I., "Thermodynamic and economic analysis of a Kalina system with integrated lithium-bromide-absorption cycle for power and cooling production" 6 : 1992-2005, 2020
9 Cao, L., "Thermodynamic analysis of a Kalina-based combined cooling and power cycle driven by low-grade heat source" 111 : 8-19, 2017
10 Moradpoor, I., "Thermo-environ analyses of a novel trigeneration cycle based on clean technologies of molten carbonate fuel cell, stirling engine and Kalina cycle" 185 : 1005-1016, 2019
1 Singh, O. K., "Thermoeconomic evaluation and optimization of a Brayton–Rankine–Kalina combined triple power cycle" 71 : 32-42, 2013
2 Mohammadi, A., "Thermoeconomic analysis and multiobjective optimization of a combined gas turbine, steam, and organic Rankine cycle" 6 (6): 506-522, 2018
3 Dhahad, H. A., "Thermodynamic and thermoeconomic analysis of innovative integration of Kalina and absorption refrigeration cycles for simultaneously cooling and power generation" 203 : 112241-, 2020
4 Parikhani, T., "Thermodynamic and thermoeconomic analysis of a novel ammonia-water mixture combined cooling, heating, and power(CCHP)cycle" 145 : 1158-1175, 2020
5 Rostamzadeh, H., "Thermodynamic and thermoeconomic analysis and optimization of a novel dual-loop power/refrigeration cycle" 138 : 1-17, 2018
6 Ghaebi, H., "Thermodynamic and thermoeconomic analysis and optimization of a novel combined cooling and power(CCP)cycle by integrating of ejector refrigeration and Kalina cycles" 139 : 262-276, 2017
7 Liu, Z., "Thermodynamic and parametric analysis of a coupled LiBr/H2O absorption chiller/Kalina cycle for cascade utilization of low-grade waste heat" 205 : 112370-, 2020
8 Abam, F. I., "Thermodynamic and economic analysis of a Kalina system with integrated lithium-bromide-absorption cycle for power and cooling production" 6 : 1992-2005, 2020
9 Cao, L., "Thermodynamic analysis of a Kalina-based combined cooling and power cycle driven by low-grade heat source" 111 : 8-19, 2017
10 Moradpoor, I., "Thermo-environ analyses of a novel trigeneration cycle based on clean technologies of molten carbonate fuel cell, stirling engine and Kalina cycle" 185 : 1005-1016, 2019
11 Meng, F., "Thermo-economic analysis of transcritical CO2 power cycle and comparison with Kalina cycle and ORC for a low-temperature heat source" 195 : 1295-1308, 2019
12 Bejan, A., "Thermal design and Optimization" Jhon Wiley & Sons 1996
13 Eller, T., "Second law analysis of novel working fluid pairs for waste heat recovery by the Kalina cycle" 119 : 188-198, 2017
14 Lazzaretto, A., "SPECO : a systematic and general methodology for calculating efficiencies and costs in thermal systems" 31 (31): 1257-1289, 2006
15 Ghaebi, H., "Proposal and assessment of a novel geothermal combined cooling and power cycle based on Kalina and ejector refrigeration cycles" 130 : 767-781, 2018
16 Ganesh, N. S., "Power augmentation in a Kalina Power System for a Medium temperature low grade heat" 135 (135): 1-10, 2013
17 Maheswari, G. U., "Performance investigation in modified and improved augmented power generation Kalina cycle using Python" 44 (44): 1506-1518, 2020
18 Ghaebi, H., "Performance assessment and optimization of a novel multi-generation system from thermodynamic and thermoeconomic viewpoints" 165 : 419-439, 2018
19 Marston, C. H., "Parametric analysis of Kalina cycle" 112 (112): 107-116, 1996
20 Zare, V., "On the exergoeconomic assessment of employing Kalina cycle for GT-MHR waste heat utilization" 90 : 364-374, 2015
21 Salim, M. S., "Multi-objective thermoeconomic optimization of a combined organic Rankine cycle and vapour compression refrigeration cycle" 199 : 112054-, 2019
22 Ben-jie Li ; Huajun Cao ; Bernard Hon ; Lei Liu ; Xi Gao, "Exergy-based Energy Efficiency Evaluation Model for Machine Tools Considering Thermal Stability" 한국정밀공학회 8 (8): 423-434, 2021
23 Sun, W., "Exergy efficiency analysis of ORC(Organic Rankine Cycle)and ORC-based combined cycles driven by low-temperature waste heat" 135 : 63-73, 2017
24 Nikulshin, V., "Exergy effi-ciency calculation of energy intensive systems by graphs" 5 : 67-74, 2002
25 Jensen, J. K., "Exergoeconomic optimization of an ammonia–water hybrid absorption–compression heat pump for heat supply in a spray-drying facility" 6 : 195-211, 2015
26 Abbasi, H. R., "Exergoeconomic optimization of a solar driven system with reverse osmosis desalination unit and phase change material thermal energy storages" 199 : 112042-, 2019
27 Ghaebi, H., "Exergoeconomic optimization of a novel cascade Kalina/Kalina cycle using geothermal heat source and LNG cold energy recovery" 189 : 279-296, 2018
28 Mahmoudi, S. M. S., "Exergoeconomic evaluation and optimization of a novel combined augmented Kalina cycle/gas turbine-modular helium reactor" 109 : 109-120, 2016
29 Yari, M., "Exergoeconomic comparison of TLC(trilateral Rankine cycle), ORC(organic Rankine cycle)and Kalina cycle using a low grade heat source" 83 : 712-722, 2015
30 Noroozian, A., "Exergoeconomic comparison and optimization of organic Rankine cycle, trilateral Rankine cycle and transcritical carbon dioxide cycle for heat recovery of low-temperature geothermal water" 233 (233): 1068-1084, 2019
31 Abdolalipouradl, M., "Exergoeconomic analysis of a novel integrated transcritical CO2and Kalina 11 cycles from Sabalan geothermal power plant" 195 : 420-435, 2019
32 Singh, O. K., "Exergoeconomic analysis of a Kalina cycle coupled coal-fired steam power plant" 14 (14): 38-59, 2014
33 Shokati, N., "Exergoeconomic analysis and optimization of basic, dual-pressure and dual-fluid ORCs and Kalina geothermal power plants : A comparative study" 83 : 527-542, 2015
34 Sarabchi, N., "Exergoeconomic analysis and optimization of a novel hybrid cogeneration system : High-temperature proton exchange membrane fuel cell/Kalina cycle, driven by solar energy" 190 : 14-33, 2019
35 Sahoo, P. K., "Exergoeconomic analysis and optimization of a cogeneration system using evolutionary programming" 28 : 1580-1588, 2008
36 Fiaschi, D., "Exergoeconomic analysis and comparison between ORC and Kalina cycles to exploit low and medium-high temperature heat from two different geothermal sites" 154 : 503-516, 2017
37 Rahmatian, M., "Exergo-environmental and exergo-economic analyses and multi-criteria optimization of a novel solar-driven CCHP based on Kalina cycle" 4 (4): 225-244, 2016
38 Rashidi, J., "Exergetic and exergoeconomic studies of two highly efficient power-cooling cogeneration systems based on the Kalina and absorption refrigeration cycles" 124 : 1023-1037, 2017
39 Sun, F., "Energy–exergy analysis and optimization of the solarboosted Kalina cycle system 11(KCS-11)" 66 : 268-279, 2014
40 Ghaebi, H., "Energy, exergy and thermoeconomic analysis of a novel combined cooling and power system using low-temperature heat source and LNG cold energy recovery" 150 : 678-692, 2017
41 Ebrahimi, M., "Energy and exergy analyses of a micro-steam CCHP cycle for a residential building" 45 : 202-210, 2012
42 Rostamzadeh, H., "Energetic and exergetic analyses of modified combined power and ejector refrigeration cycles" 2 : 119-139, 2017
43 Ganesh, N. S., "Development of thermophysical properties of aqua ammonia for Kalina cycle system" 55 (55): 113-141, 2017
44 Babaelahi, M., "Design, dynamic analysis and control-based exergetic optimization for solar-driven Kalina power plant" 187 : 115977-, 2019
45 Chen, J., "Conventional and advanced exergy analysis of an ejector refrigeration system" 144 : 139-151, 2015
46 Cao, L., "Comprehensive analysis and optimization of Kalina-Flash cycles for low-grade heat source" 131 : 540-552, 2018
47 Junior, E. P. B., "Assessment of a Kalina cycle for waste heat recovery in the cement industry" 147 : 421-437, 2019
48 Singh, O. K., "Application of Kalina cycle for augmenting performance of bagasse-fired cogeneration plant of sugar industry" 267 : 117176-, 2020
49 Montazerinejad, H., "Advanced exergy, exergo-economic and exrgo-environmental analyses of a solar based trigeneration energy system" 152 : 666-685, 2019
50 Ambriz-Díaz, V. M., "Advanced exergy and exergoeconomic analysis for a polygeneration plant operating in geothermal cascade" 203 : 112227-, 2020
51 Wang, Y., "Advanced exergy and exergoeconomic analyses of a cascade absorption heat transformer for the recovery of low grade waste heat" 205 : 112392-, 2020
52 Mohammadi, Z., "Advanced exergy analysis of recompression supercritical CO2cycle" 178 : 631-643, 2019
53 Mehrpooya, M., "Advanced exergoeconomic assessment of a solar-driven Kalina cycle" 178 : 78-91, 2018
54 Vatani, A., "Advanced exergetic analysis of five natural gas liquefaction processes" 78 : 720-737, 2014
55 Zhang, X., "A review of research on the Kalina cycle" 16 (16): 5309-5318, 2012
56 Wang, E., "A numerical analysis of a composition-adjustable Kalina cycle power plant for power generation from low-temperature geothermal sources" 180 : 834-848, 2016
57 Ghaebi, H., "A novel trigeneration system using geothermal heat source and liquefied natural gas cold energy recovery : Energy, exergy and exergoeconomic analysis" 119 : 513-527, 2018
58 Calise, F., "A novel tool for thermoeconomic analysis and optimization of trigeneration systems : A case study for a hospital building in Italy" 126 : 64-87, 2017
59 Zhou, C., "A novel pinch-based method for process integration and optimization of Kalina cycle" 209 : 112630-, 2020
60 Uysal, C., "A new approach to advanced exergoeconomic analysis:The unit cost of entropy generation" e13297-, 2019
61 Shokati, N., "A comprehensive exergoeconomic analysis of absorption power and cooling cogeneration cycles based on Kalina, part 1 : Simulation" 158 : 437-459, 2018
62 Shokati, N., "A comprehensive exergoeconomic analysis of absorption power and cooling cogeneration cycles based on Kalina, Part 2 : Parametric study and optimization" 161 : 74-103, 2018
63 Mokarram, N. H., "A comparative study and optimization of enhanced integrated geothermal flash and Kalina cycles : A thermoeconomic assessment" 162 : 111-125, 2018
64 Christopher Schmidt ; Wen Li ; Sebastian Thiede ; Sami Kara ; Christoph Herrmann, "A Methodology for Customized Prediction of Energy Consumption in Manufacturing Industries" 한국정밀공학회 2 (2): 163-172, 2015