| 1 - 1 |
Practice and Innovations in the Regasification of LNG Foreword
Morosuk T |
| 2 - 15 |
The exploitation of the physical exergy of liquid natural gas by closed power thermodynamic cycles. An overview
Invernizzi CM, Bra P |
| 16 - 24 |
Combined cascaded Rankine and direct expander based power units using LNG (liquefied natural gas) cold as heat sink in LNG regasification
Garcia RF, Carril JC, Gomez JR, Gomez MR |
| 25 - 31 |
Application of the Stirling engine driven with cryogenic exergy of LNG (liquefied natural gas) for the production of electricity
Szczygiel I, Stanek W, Szargut J |
| 32 - 44 |
Thermodynamic analysis of a novel power plant with LNG (liquefied natural gas) cold exergy exploitation and CO2 capture
Gomez MR, Gomez JR, Lopez-Gonzalez LM, Lopez-Ochoa LM |
| 45 - 56 |
Cold energy utilization of liquefied natural gas for capturing carbon dioxide in the flue gas from the magnesite processing industry
Zhao L, Dong H, Tang JJ, Cai JJ |
| 57 - 69 |
Application of metal foam heat exchangers for a high-performance quefied natural gas regasification system
Kim DY, Sung TH, Kim KC |
| 70 - 79 |
A pump-free boosting system and its application to liquefied natural gas supply for large ships
Seo S, Han S, Lee S, Chang D |
| 80 - 88 |
Optimal LNG (liquefied natural gas) regasification scheduling for import terminals with storage
Trotter IM, Gomes MFM, Braga MJ, Brochmann B, Lie ON |
