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Proceedings of the
Second International Energy 2030 Conference,
November 4-5, 2008, Abu Dhabi, UAE
Design and Construction of High Efficiency Fiber Optic
Solar Concentrator for Solar Lighting
Sang Chun Lee
Kyungnam University, South Korea & Creative Energy and Technology Inc., South Korea
Hyunkook Park
Kyungnam University, South Korea & Creative Energy and Technology Inc., South Korea
Jungsoo Woo
Creative Energy and Technology Inc., South Korea
Kookhyun Choi
Creative Energy and Technology Inc., South Korea
Yunyoung Choi
Creative Energy and Technology Inc., South Korea
Abstract
Chemical and gas plants are energy-intensive facilities so that any enhancement of their efficiency will
result in abundant reduction of energy consumption and green house gas emissions. Liquefied natural gas
(LNG) plants consume a great amount of energy. In order to enhance LNG plant energy efficiency, the
potential of various options for improving liquefaction cycle efficiency is investigated in this study. After
developing models for the LNG process using ASPEN software, four expansion loss recovery options are
simulated. The simulation results show that the compressor power reduction, expansion work recovery,
and LNG production increase can be achieved as much as 2.187 MW, 3.9 MW, and 1.24%, respectively,
by replacing conventional expansion processes with expanders. Therefore, the expansion work recovery is
an important option to be implemented in LNG plants.
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