-
1
-
-
79957628858
-
Current status and future projections of LNG demand and supplies: a global prospective
-
[1] Kumar, S., Kwon, H.-, Choi, K.-, Hyun Cho, J., Lim, W., Moon, I., Current status and future projections of LNG demand and supplies: a global prospective. Energy Policy 39:7 (2011), 4097–4104.
-
(2011)
Energy Policy
, vol.39
, Issue.7
, pp. 4097-4104
-
-
Kumar, S.1
Kwon, H.-2
Choi, K.-3
Hyun Cho, J.4
Lim, W.5
Moon, I.6
-
2
-
-
84856758924
-
World natural gas endowment as a bridge towards zero carbon emissions
-
[2] Aguilera, R.F., Aguilera, R., World natural gas endowment as a bridge towards zero carbon emissions. Technol Forecast Soc Change 79:3 (2012), 579–586.
-
(2012)
Technol Forecast Soc Change
, vol.79
, Issue.3
, pp. 579-586
-
-
Aguilera, R.F.1
Aguilera, R.2
-
3
-
-
80052270714
-
LNG: an eco-friendly cryogenic fuel for sustainable development
-
[3] Kumar, S., Kwon, H.-, Choi, K.-, Lim, W., Cho, J.H., Tak, K., et al. LNG: an eco-friendly cryogenic fuel for sustainable development. Appl Energy 88 (2011), 4264–4273.
-
(2011)
Appl Energy
, vol.88
, pp. 4264-4273
-
-
Kumar, S.1
Kwon, H.-2
Choi, K.-3
Lim, W.4
Cho, J.H.5
Tak, K.6
-
4
-
-
84861017255
-
Natural gas: the green fuel of the future
-
[4] Taylor, R.S., Tertzakian, P., Wall, T., Graham, M., Young, P.J., Harbinson, S., Natural gas: the green fuel of the future. J Can Pet Technol 51:3 (2012), 163–175.
-
(2012)
J Can Pet Technol
, vol.51
, Issue.3
, pp. 163-175
-
-
Taylor, R.S.1
Tertzakian, P.2
Wall, T.3
Graham, M.4
Young, P.J.5
Harbinson, S.6
-
5
-
-
84866431358
-
Green fuel know-how progression forerunners anticipate LNG transition
-
[5] Buitelaar, H., Green fuel know-how progression forerunners anticipate LNG transition. Marit by Holl 61:5 (2012), 40–43.
-
(2012)
Marit by Holl
, vol.61
, Issue.5
, pp. 40-43
-
-
Buitelaar, H.1
-
6
-
-
84907464583
-
Design process of LNG heavy hydrocarbons fractionation: low LNG temperature recovery
-
[6] Uwitonze, H., Han, S., Jangryeok, C., Hwang, K.S., Design process of LNG heavy hydrocarbons fractionation: low LNG temperature recovery. Chem Eng Process Process Intensif 85 (2014), 187–195.
-
(2014)
Chem Eng Process Process Intensif
, vol.85
, pp. 187-195
-
-
Uwitonze, H.1
Han, S.2
Jangryeok, C.3
Hwang, K.S.4
-
7
-
-
0001066880
-
Evaluation of an energy supply system with air separation
-
[7] Nakaiwa, M., Akiya, T., Owa, M., Tanaka, Y., Evaluation of an energy supply system with air separation. Energy Convers Manag 37:3 (1996), 295–301.
-
(1996)
Energy Convers Manag
, vol.37
, Issue.3
, pp. 295-301
-
-
Nakaiwa, M.1
Akiya, T.2
Owa, M.3
Tanaka, Y.4
-
8
-
-
54249124698
-
Combined cycle of air separation and natural gas liquefaction
-
[8] Tuo, H., Li, Y., Tan, H., Combined cycle of air separation and natural gas liquefaction. Huagong Xuebao/J Chem Ind Eng China 59:10 (2008), 2498–2504.
-
(2008)
Huagong Xuebao/J Chem Ind Eng China
, vol.59
, Issue.10
, pp. 2498-2504
-
-
Tuo, H.1
Li, Y.2
Tan, H.3
-
9
-
-
53549131995
-
Potential applications using LNG cold energy in Sicily
-
[9] Messineo, A., Panno, D., Potential applications using LNG cold energy in Sicily. Int J Energy Res 32:11 (2008), 1058–1064.
-
(2008)
Int J Energy Res
, vol.32
, Issue.11
, pp. 1058-1064
-
-
Messineo, A.1
Panno, D.2
-
10
-
-
79953217693
-
LNG cold energy use in agro-food industry: a case study in Sicily
-
[10] Messineo, A., Panno, G., LNG cold energy use in agro-food industry: a case study in Sicily. J Nat Gas Sci Eng 3 (2011), 356–363.
-
(2011)
J Nat Gas Sci Eng
, vol.3
, pp. 356-363
-
-
Messineo, A.1
Panno, G.2
-
11
-
-
84908454620
-
Theoretical approach of freeze seawater desalination on flake ice maker utilizing LNG cold energy
-
[11] Cao, W., Beggs, C., Mujtaba, I.M., Theoretical approach of freeze seawater desalination on flake ice maker utilizing LNG cold energy. Desalination 355 (2014), 22–32.
-
(2014)
Desalination
, vol.355
, pp. 22-32
-
-
Cao, W.1
Beggs, C.2
Mujtaba, I.M.3
-
12
-
-
84862766489
-
A conceptual demonstration of freeze desalination-membrane distillation (FD-MD) hybrid desalination process utilizing liquefied natural gas (LNG) cold energy
-
[12] Wang, P., Chung, T.-, A conceptual demonstration of freeze desalination-membrane distillation (FD-MD) hybrid desalination process utilizing liquefied natural gas (LNG) cold energy. Water Res 46:13 (2012), 4037–4052.
-
(2012)
Water Res
, vol.46
, Issue.13
, pp. 4037-4052
-
-
Wang, P.1
Chung, T.-2
-
13
-
-
78650487433
-
Understanding the exergy of cold: theory and practical examples
-
[13] Jansen, S., Woudstra, N., Understanding the exergy of cold: theory and practical examples. Int J Exergy 7:6 (2010), 693–713.
-
(2010)
Int J Exergy
, vol.7
, Issue.6
, pp. 693-713
-
-
Jansen, S.1
Woudstra, N.2
-
14
-
-
34547665603
-
Evolution of an LNG terminal: Senboku terminal of Osaka gas
-
[14] Otsuka, Toshiro, Evolution of an LNG terminal: Senboku terminal of Osaka gas. International Gas Union World Gas Conference papers, vol. 5, 2006, 2617–2630.
-
(2006)
International Gas Union World Gas Conference papers
, vol.5
, pp. 2617-2630
-
-
Otsuka, T.1
-
15
-
-
34547686706
-
Review on economical efficiency of LNG cold energy use in South Korea
-
[15] Kim, H., Hong, S., Review on economical efficiency of LNG cold energy use in South Korea. International Gas Union World Gas Conference papers, vol. 5, 2006, 2885–2895.
-
(2006)
International Gas Union World Gas Conference papers
, vol.5
, pp. 2885-2895
-
-
Kim, H.1
Hong, S.2
-
16
-
-
84901688174
-
Simulation and optimization of a novel Rankine power cycle for recovering cold energy from liquefied natural gas using a mixed working fluid
-
[16] Sun, H., Zhu, H., Liu, F., Ding, H., Simulation and optimization of a novel Rankine power cycle for recovering cold energy from liquefied natural gas using a mixed working fluid. Energy 70 (2014), 317–324.
-
(2014)
Energy
, vol.70
, pp. 317-324
-
-
Sun, H.1
Zhu, H.2
Liu, F.3
Ding, H.4
-
17
-
-
84909633696
-
Design and optimization of multi-component organic Rankine cycle using liquefied natural gas cryogenic exergy
-
[17] Lee, U., Kim, K., Han, C., Design and optimization of multi-component organic Rankine cycle using liquefied natural gas cryogenic exergy. Energy 77 (2014), 520–532.
-
(2014)
Energy
, vol.77
, pp. 520-532
-
-
Lee, U.1
Kim, K.2
Han, C.3
-
18
-
-
84902490296
-
2 geothermal power generation system based on the cold energy utilization of LNG
-
[18] Wang, J., Wang, J., Dai, Y., Zhao, P., Thermodynamic analysis and optimization of a transcritical CO2geothermal power generation system based on the cold energy utilization of LNG. Appl Therm Eng 70:1 (2014), 531–540.
-
(2014)
Appl Therm Eng
, vol.70
, Issue.1
, pp. 531-540
-
-
Wang, J.1
Wang, J.2
Dai, Y.3
Zhao, P.4
-
19
-
-
84896397031
-
2 (carbon dioxide) power cycle for reverse osmosis desalination based on the recovery of cryogenic energy of LNG (liquefied natural gas)
-
[19] Xia, G., Sun, Q., Cao, X., Wang, J., Yu, Y., Wang, L., Thermodynamic analysis and optimization of a solar-powered transcritical CO2(carbon dioxide) power cycle for reverse osmosis desalination based on the recovery of cryogenic energy of LNG (liquefied natural gas). Energy 66 (2014), 643–653.
-
(2014)
Energy
, vol.66
, pp. 643-653
-
-
Xia, G.1
Sun, Q.2
Cao, X.3
Wang, J.4
Yu, Y.5
Wang, L.6
-
20
-
-
84901269550
-
Thermodynamic performance analysis of a combined power cycle using low grade heat source and LNG cold energy
-
[20] Kim, K.H., Kim, K.C., Thermodynamic performance analysis of a combined power cycle using low grade heat source and LNG cold energy. Appl Therm Eng 70:1 (2014), 50–60.
-
(2014)
Appl Therm Eng
, vol.70
, Issue.1
, pp. 50-60
-
-
Kim, K.H.1
Kim, K.C.2
-
21
-
-
84874667470
-
Thermodynamic analysis of an SOFC-GT-ORC integrated power system with liquefied natural gas as heat sink
-
[21] Yan, Z., Zhao, P., Wang, J., Dai, Y., Thermodynamic analysis of an SOFC-GT-ORC integrated power system with liquefied natural gas as heat sink. Int J Hydrogen Energy 38:8 (2013), 3352–3363.
-
(2013)
Int J Hydrogen Energy
, vol.38
, Issue.8
, pp. 3352-3363
-
-
Yan, Z.1
Zhao, P.2
Wang, J.3
Dai, Y.4
-
22
-
-
84885956788
-
Analysis and optimization of cascade rankine cycle for liquefied natural gas cold energy recovery
-
[22] Choi, I.-, Lee, S., Seo, Y., Chang, D., Analysis and optimization of cascade rankine cycle for liquefied natural gas cold energy recovery. Energy 61 (2013), 179–195.
-
(2013)
Energy
, vol.61
, pp. 179-195
-
-
Choi, I.-1
Lee, S.2
Seo, Y.3
Chang, D.4
-
23
-
-
84903726650
-
Cold exergy recovery during LNG regasification through a closed brayton cycle
-
[23] Gómez, M.R., García, R.F., Gómez, J.R., De Miguel Catoira, A., Cold exergy recovery during LNG regasification through a closed brayton cycle. Int J Exergy 14:4 (2014), 484–504.
-
(2014)
Int J Exergy
, vol.14
, Issue.4
, pp. 484-504
-
-
Gómez, M.R.1
García, R.F.2
Gómez, J.R.3
De Miguel Catoira, A.4
-
24
-
-
77954849091
-
Performance enhancement of conventional combined cycle power plant by inlet air cooling, inter-cooling and LNG cold energy utilization
-
[24] Shi, X., Agnew, B., Che, D., Gao, J., Performance enhancement of conventional combined cycle power plant by inlet air cooling, inter-cooling and LNG cold energy utilization. Appl Therm Eng 30:14–15 (2010), 2003–2010.
-
(2010)
Appl Therm Eng
, vol.30
, Issue.14-15
, pp. 2003-2010
-
-
Shi, X.1
Agnew, B.2
Che, D.3
Gao, J.4
-
25
-
-
34547629034
-
Thermodynamic analysis of an LNG fuelled combined cycle power plant with waste heat recovery and utilization system
-
[25] Shi, X., Che, D., Thermodynamic analysis of an LNG fuelled combined cycle power plant with waste heat recovery and utilization system. Int J Energy Res 31:10 (2007), 975–998.
-
(2007)
Int J Energy Res
, vol.31
, Issue.10
, pp. 975-998
-
-
Shi, X.1
Che, D.2
-
26
-
-
84864536520
-
Proposing a novel combined cycle for optimal exergy recovery of liquefied natural gas
-
[26] Salimpour, M.R., Zahedi, M.A., Proposing a novel combined cycle for optimal exergy recovery of liquefied natural gas. Heat Mass Transf 48:8 (2012), 1309–1317.
-
(2012)
Heat Mass Transf
, vol.48
, Issue.8
, pp. 1309-1317
-
-
Salimpour, M.R.1
Zahedi, M.A.2
-
27
-
-
79958171013
-
Comparative evaluation of LNG – based cogeneration systems using advanced exergetic analysis
-
[27] Morosuk, T., Tsatsaronis, G., Comparative evaluation of LNG – based cogeneration systems using advanced exergetic analysis. Energy 36:6 (2011), 3771–3778.
-
(2011)
Energy
, vol.36
, Issue.6
, pp. 3771-3778
-
-
Morosuk, T.1
Tsatsaronis, G.2
-
28
-
-
76449083082
-
Advanced exergetic analysis of a novel system for generating electricity and vaporizing liquefied natural gas
-
[28] Tsatsaronis, G., Morosuk, T., Advanced exergetic analysis of a novel system for generating electricity and vaporizing liquefied natural gas. Energy 35:2 (2010), 820–829.
-
(2010)
Energy
, vol.35
, Issue.2
, pp. 820-829
-
-
Tsatsaronis, G.1
Morosuk, T.2
-
29
-
-
55549112561
-
Exergy recovery during LNG regasification: electric energy production e part one
-
[29] Dispenza, C., Dispenza, G., La Rocca, V., Panno, G., Exergy recovery during LNG regasification: electric energy production e part one. Appl Therm Eng 29:2–3 (2009), 380–387.
-
(2009)
Appl Therm Eng
, vol.29
, Issue.2-3
, pp. 380-387
-
-
Dispenza, C.1
Dispenza, G.2
La Rocca, V.3
Panno, G.4
-
30
-
-
84896403953
-
Thermodynamic analysis of a Brayton cycle and Rankine cycle arranged in series exploiting the cold exergy of LNG (liquefied natural gas)
-
[30] Gómez, M.R., Garcia, R.F., Gómez, J.R., Carril, J.C., Thermodynamic analysis of a Brayton cycle and Rankine cycle arranged in series exploiting the cold exergy of LNG (liquefied natural gas). Energy 66 (2014), 927–937.
-
(2014)
Energy
, vol.66
, pp. 927-937
-
-
Gómez, M.R.1
Garcia, R.F.2
Gómez, J.R.3
Carril, J.C.4
-
31
-
-
84902676148
-
High efficiency power plant with liquefied natural gas cold energy utilization
-
[31] Gómez, M.R., Garcia, R.F., Carril, J.C., Gómez, J.R., High efficiency power plant with liquefied natural gas cold energy utilization. J Energy Inst 87:1 (2014), 59–68.
-
(2014)
J Energy Inst
, vol.87
, Issue.1
, pp. 59-68
-
-
Gómez, M.R.1
Garcia, R.F.2
Carril, J.C.3
Gómez, J.R.4
-
32
-
-
84880370393
-
Thermodynamic optimization of the operating parameters for a combined power cycle utilizing low-temperature waste heat and LNG cold energy
-
[32] Wang, H., Shi, X., Che, D., Thermodynamic optimization of the operating parameters for a combined power cycle utilizing low-temperature waste heat and LNG cold energy. Appl Therm Eng 59:1–2 (2013), 490–497.
-
(2013)
Appl Therm Eng
, vol.59
, Issue.1-2
, pp. 490-497
-
-
Wang, H.1
Shi, X.2
Che, D.3
-
33
-
-
84888432809
-
Using cryogenic exergy of liquefied natural gas for electricity production with the stirling cycle
-
[33] Dong, H., Zhao, L., Zhang, S., Wang, A., Cai, J., Using cryogenic exergy of liquefied natural gas for electricity production with the stirling cycle. Energy 63 (2013), 10–18.
-
(2013)
Energy
, vol.63
, pp. 10-18
-
-
Dong, H.1
Zhao, L.2
Zhang, S.3
Wang, A.4
Cai, J.5
-
34
-
-
84905057327
-
Review of thermal cycles exploiting the exergy of liquefied natural gas in the regasification process
-
[34] Romero Gómez, M., Ferreiro Garcia, R., Romero Gómez, J., Carbia Carril, J., Review of thermal cycles exploiting the exergy of liquefied natural gas in the regasification process. Renew Sustain Energy Rev 38 (2014), 781–795.
-
(2014)
Renew Sustain Energy Rev
, vol.38
, pp. 781-795
-
-
Romero Gómez, M.1
Ferreiro Garcia, R.2
Romero Gómez, J.3
Carbia Carril, J.4
-
35
-
-
0003998613
-
Engineering equation solver (EES)
-
Academic Professional V9.172
-
[35] Klein, S.A., Engineering equation solver (EES). 2012 Academic Professional V9.172.
-
(2012)
-
-
Klein, S.A.1
-
36
-
-
79960705533
-
Recent developments on carbon capture and storage: an overview
-
[36] Pires, J.C.M., Martins, F.G., Alvim-Ferraz, M.C.M., Simões, M., Recent developments on carbon capture and storage: an overview. Chem Eng Res Des 89:9 (2011), 1446–1460.
-
(2011)
Chem Eng Res Des
, vol.89
, Issue.9
, pp. 1446-1460
-
-
Pires, J.C.M.1
Martins, F.G.2
Alvim-Ferraz, M.C.M.3
Simões, M.4
-
37
-
-
84870829508
-
2 capture from distributed energy systems
-
[37] Kuramochi, T., Ramírez, A., Turkenburg, W., Faaij, A., Techno-economic prospects for CO2capture from distributed energy systems. Renew Sustain Energy Rev 19 (2013), 328–347.
-
(2013)
Renew Sustain Energy Rev
, vol.19
, pp. 328-347
-
-
Kuramochi, T.1
Ramírez, A.2
Turkenburg, W.3
Faaij, A.4
-
38
-
-
0842269230
-
Novel cogeneration power system with liquefied natural gas (LNG) cryogenic exergy utilization
-
[38] Deng, S., Jin, H., Cai, R., Lin, R., Novel cogeneration power system with liquefied natural gas (LNG) cryogenic exergy utilization. Energy 29:4 (2004), 497–512.
-
(2004)
Energy
, vol.29
, Issue.4
, pp. 497-512
-
-
Deng, S.1
Jin, H.2
Cai, R.3
Lin, R.4
-
39
-
-
68849095492
-
2-emission high-efficiency power cycle using LNG coldness
-
[39] Liu, M., Lior, N., Zhang, N., Han, W., Thermoeconomic analysis of a novel zero-CO2-emission high-efficiency power cycle using LNG coldness. Energy Convers Manag 50:11 (2009), 2768–2781.
-
(2009)
Energy Convers Manag
, vol.50
, Issue.11
, pp. 2768-2781
-
-
Liu, M.1
Lior, N.2
Zhang, N.3
Han, W.4
-
41
-
-
76449083697
-
2-capturing oxy-fuel power system with LNG (liquefied natural gas) coldness energy utilization
-
[41] Zhang, N., Lior, N., Liu, M., Han, W.C.O.O.L.C.E.P., (cool clean efficient power): a novel CO2-capturing oxy-fuel power system with LNG (liquefied natural gas) coldness energy utilization. Energy 35:2 (2010), 1200–1210.
-
(2010)
Energy
, vol.35
, Issue.2
, pp. 1200-1210
-
-
Zhang, N.1
Lior, N.2
Liu, M.3
Han, W.C.O.O.L.C.E.P.4
-
42
-
-
33646096742
-
2 emission thermal cycle with LNG cryogenic exergy utilization
-
[42] Zhang, N., Lior, N., A novel near-zero CO2emission thermal cycle with LNG cryogenic exergy utilization. Energy 31:10–11 (2006), 1666–1679.
-
(2006)
Energy
, vol.31
, Issue.10-11
, pp. 1666-1679
-
-
Zhang, N.1
Lior, N.2
-
43
-
-
33645767903
-
2 emission cycle with liquid natural gas cryogenic exergy utilization
-
[43] Zhang, N., Lior, N., Proposal and analysis of a novel zero CO2emission cycle with liquid natural gas cryogenic exergy utilization. J Eng Gas Turb Power 128 (2006), 81–91.
-
(2006)
J Eng Gas Turb Power
, vol.128
, pp. 81-91
-
-
Zhang, N.1
Lior, N.2
-
44
-
-
1842531264
-
2 emission cycle with LNG cryogenic exergy utilization
-
Advanced Energy Systems Division (Publication) AES
-
[44] Zhang, N., Lior, N., Configuration analysis of a novel zero CO2emission cycle with LNG cryogenic exergy utilization. American society of mechanical engineers, vol. 43, 2003, Advanced Energy Systems Division (Publication) AES, 333–343.
-
(2003)
American society of mechanical engineers
, vol.43
, pp. 333-343
-
-
Zhang, N.1
Lior, N.2
-
45
-
-
33947387930
-
2
-
[45] Davison, John, Performance and costs of power plants with capture and storage of CO2. Energy 32 (2007), 1163–1176.
-
(2007)
Energy
, vol.32
, pp. 1163-1176
-
-
Davison, J.1
-
46
-
-
79955668409
-
A novel cryogenic power cycle for LNG cold energy recovery
-
[46] Liu, Y., Guo, K., A novel cryogenic power cycle for LNG cold energy recovery. Energy 36:5 (2011), 2828–2833.
-
(2011)
Energy
, vol.36
, Issue.5
, pp. 2828-2833
-
-
Liu, Y.1
Guo, K.2
-
47
-
-
85043125404
-
-
[47] Tranier, J.-P., Perrin, N., Darde, A. Update on Advanced Developments for ASU and CO2 Purification Units for Oxy-Combustion (Air Liquide, France). In: 3rd Meeting of the Oxy-Fuel Combustion Network (Yokohama, Japan, March 5th 2008), IEAGHG International Oxy-Combustion Network.
-
Update on Advanced Developments for ASU and CO2 Purification Units for Oxy-Combustion (Air Liquide, France). In: 3rd Meeting of the Oxy-Fuel Combustion Network (Yokohama, Japan, March 5th 2008), IEAGHG International Oxy-Combustion Network
-
-
Tranier, J.-P.1
Perrin, N.2
Darde, A.3
-
48
-
-
33749237333
-
2 capture
-
[48] Kvamsdala, Hanne M., Jordala, Kristin, Bollandb, Olav, A quantitative comparison of gas turbine cycles with CO2capture. Energy 32 (2007), 10–24.
-
(2007)
Energy
, vol.32
, pp. 10-24
-
-
Kvamsdala, H.M.1
Jordala, K.2
Bollandb, O.3
-
49
-
-
0003475840
-
The exergy method of thermal plant analysis
-
Butterworths London, U.K
-
[49] Kotas, T.J., The exergy method of thermal plant analysis. 1985, Butterworths, London, U.K.
-
(1985)
-
-
Kotas, T.J.1
-
50
-
-
77955177091
-
Boil off gas (BOG) management in Spanish liquid natural gas (LNG) terminals
-
[50] Querol, E., Gonzalez-Regueral, B., García-Torrent, J., García-Martínez, M.J., Boil off gas (BOG) management in Spanish liquid natural gas (LNG) terminals. Appl Energy 87:10 (2010), 3384–3392.
-
(2010)
Appl Energy
, vol.87
, Issue.10
, pp. 3384-3392
-
-
Querol, E.1
Gonzalez-Regueral, B.2
García-Torrent, J.3
García-Martínez, M.J.4
-
51
-
-
0344325251
-
On the recovery of LNG physical exergy by means of a simple cycle or a complex system
-
[51] Bisio, G., Tagliafico, L., On the recovery of LNG physical exergy by means of a simple cycle or a complex system. Int J Exergy 2:1 (2002), 34–50.
-
(2002)
Int J Exergy
, vol.2
, Issue.1
, pp. 34-50
-
-
Bisio, G.1
Tagliafico, L.2
|