Aeroderivative Engines in LNG Liquefaction Mechanical Drive Applications

Volume 9: Oil and Gas Applications; Supercritical CO2 Power Cycles; Wind Energy Pub Date : 2018-06-11 DOI:10.1115/GT2018-75567

C. Meher-Homji, Matt Taher, Feroze J. Meher-Homji, Pradeep T. Pillai

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Abstract

Over the last 50 years of the LNG industry, there has been a significant evolution in the drivers used to power liquefaction compressors. For several decades, steam turbines were utilized and the first gas turbines were deployed in 1969. In a LNG liquefaction plant, the gas turbine drivers and refrigeration compressors strongly influence overall plant performance and efficiency. After the first Aeroderivative solution was applied at Darwin LNG in 2006, there has been a significant growth in the application of these engines for LNG mechanical drive. This trend is driven by the need to reduce greenhouse gas emissions, and fuel auto-consumption, which in a feed gas constrained situation, boosts LNG output. Aeroderivatives tends to increase plant availability. This paper reviews the market penetration of Aeroderivatives into the LNG liquefaction sector highlighting the fundamental differences between Aeroderivative, and heavy duty engines. The background, historical deployment and technical issues relating to the use of Aeroderivative engines for LNG mechanical drive are addressed. Qualification programs for new engines and technologies such as inlet chilling for power augmentation as implemented in LNG plants are reviewed.

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航空衍生发动机在液化天然气液化机械驱动中的应用

在过去的50年里，液化天然气行业用于驱动液化压缩机的驱动器发生了重大变化。几十年来，蒸汽轮机被使用，1969年第一台燃气轮机被部署。在LNG液化装置中，燃气轮机驱动器和制冷压缩机强烈影响整个装置的性能和效率。自2006年首个Aeroderivative解决方案应用于Darwin LNG后，这些发动机在LNG机械驱动方面的应用显著增长。这一趋势是由减少温室气体排放的需求和燃料汽车消耗驱动的，在原料气受限的情况下，燃料汽车消耗增加了液化天然气产量。航空衍生物倾向于增加植物的可利用性。本文回顾了航空衍生产品在液化天然气液化领域的市场渗透，强调了航空衍生产品与重型发动机之间的根本区别。介绍了航空衍生发动机用于LNG机械驱动的背景、历史部署和技术问题。审查了LNG工厂实施的新发动机和新技术的认证程序，如入口冷却以增强功率。

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来源期刊

Volume 9: Oil and Gas Applications; Supercritical CO2 Power Cycles; Wind Energy

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