Loop Filling and Start Up With a Closed Loop sCO2 Brayton Cycle

Volume 9: Oil and Gas Applications; Supercritical CO2 Power Cycles; Wind Energy Pub Date : 2019-06-17 DOI:10.1115/gt2019-90393

Stefan D. Cich, J. Moore, Meera Day Towler, J. Mortzheim, D. Hofer

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引用次数: 2

Abstract

Recent testing has been performed on a 1 MWe sCO2 closed loop recuperated cycle under funding from the US DOE Sunshot initiative and industry partners. Some of the goals of this funding included the development of a 1 MWe loop, a 10 MWe turbine, and performance and mechanical testing. One of the key challenges that presented itself was the filling, start-up, and shut down of the entire system. Understanding the loop transient performance is important when having to bring a turbine online, transitioning from peak to partial loading, and also managing routine and emergency shut downs. Due to large changes in density near the critical point for CO2 and its tendency to form dry ice when expanded to atmospheric pressure, managing loop filling and venting is critical in ensuring that components do not get damaged. Specific challenges were centered on protecting the dry gas seals, maintaining proper mass in the loop, and also thermal transients during trips. This paper will take a detailed look at the challenges encountered during start up and shut downs, and also the solutions that were implemented to successful transition between different phases of the testing.

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循环填充和启动与闭环sCO2布雷顿循环

最近，在美国能源部Sunshot计划和行业合作伙伴的资助下，对1兆瓦的sCO2闭环回收循环进行了测试。这笔资金的一些目标包括开发一个1兆瓦的环路，一个10兆瓦的涡轮机，以及性能和机械测试。面临的主要挑战之一是整个系统的填充、启动和关闭。当必须使涡轮机上线，从峰值负荷过渡到部分负荷，以及管理常规和紧急停机时，了解回路瞬态性能非常重要。由于二氧化碳在临界点附近的密度变化很大，并且当膨胀到大气压力时，它倾向于形成干冰，因此管理循环填充和排气对于确保组件不被损坏至关重要。具体的挑战集中在保护干气密封，保持适当的循环质量，以及起下钻期间的热瞬变。本文将详细介绍在启动和关闭过程中遇到的挑战，以及在不同测试阶段之间成功过渡的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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

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