新循环经济中的非常规废弃物与火炬气回收系统UFGRS

M. Soliman, S. Salu, A. Al-Aiderous, Nisar Ahmad K. Ansari, Khamis Al-Hajri, Ellyes Mecikar
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引用次数: 0

摘要

为了与世界其他国家在减少温室气体排放方面保持同步,沙特阿美公司启动了一项积极的计划,通过政策、标准和内部创新,尽量减少或减少石油和天然气生产过程中使用的常规燃烧和能源。创新的非常规废物和火炬气回收系统UFGRS支持公司战略,以最低的资本支出和运营成本减少或消除常规火炬。本文详细介绍了一种新型的基于喷射器的非常规废物/火炬气回收系统(UFGRS),该系统不使用气体压缩机。该项目的目标是消除gspas(一个大型火炬和救援系统)在任何意外熄火情况下向大气释放的碳氢化合物气体,并以最低的资本支出和运营成本每年持续回收18.25亿标准立方英尺(1.825 BSCFY)有价值的吹扫气体。使用气体压缩机的传统火炬气体回收系统(FGRS)是许多设施中用于回收常规天然气燃烧的常规选择,但与回收气体的价值相比,它的CAPEX和OPEX(维护,高功耗和劳动密集型)很高。此外,基于压缩机的FGRS比基于喷射器(静态)的FGRS更复杂,可靠性更差。此外,与传统的基于压缩机的FGRS相比,创新的FGRS能够处理高降压比。此外,该想法的其他创新部分是与现有压缩系统的集成,以及仅使用喷射器、管道、阀门和水封鼓等静态设备来回收废物/火炬气。与传统的火炬气回收系统相比,该系统的运营成本非常低,而且还能显著节省天然气。非常规FGRS系统于2020年12月成功验证。该系统目前已经运行了8个月,没有任何中断,并设法消除了1.825 BSCFY gspa生产设施的设计常规天然气燃除率。此外,该项目还减少了106,000吨/年的二氧化碳排放量,为王国的循环经济倡议做出了积极贡献。为了进一步增强基于喷射器的FGRS, 2019年10月授予了第10,429,067号美国专利,将基于喷射器的FGRS概念用于紧急火炬气回收。这个创新的想法包括平行使用多个喷射器,并提供不同的喷射器,在不同的压力下工作,这将允许系统在不同的流速范围内用于回收火炬气,对应于不同的紧急释放场景。此外,两项新专利正在申请中,以利用液体代替气体作为动力流体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unconventional Waste & Flare Gas Recovery System UFGRS in New Circular Economy
Keeping pace with the rest of the world on reducing the greenhouse gas emission, Saudi Aramco embarked on an aggressive program to minimize or cut routine flaring and energy resources used in producing oil and gas through policies, standards and inhouse innovations. The innovative Unconventional Waste & Flare Gas Recovery System UFGRS has supported the corporate strategy to minimize or eliminate routine flaring with minimum CAPEX and OPEX. This paper present in detail the innovative Ejector Based Unconventional Waste/Flare Gas Recovery System (UFGRS) without using gas compressors. The objective of the project is to eliminate the hydrocarbon gas release to atmosphere for any upset flameout scenario from GOSP-A massive flare & relief system and continuously recover 1.825 Billion Standard Cubic Feet per year (1.825 BSCFY) of valuable purge gas with the lowest CAPEX and OPEX. Conventional Flare Gas Recovery System (FGRS) using gas compressors is the normal choice deployed in many facilities to recover the routine gas flaring but it was found to have high CAPEX and OPEX (maintenance, high power consumption & labor intensive) compared to the value of the recovered gas. Also, the compressors based FGRS is more complex and less reliable than the ejector (static) based FGRS. In addition, the innovative FGRS is capable of handling high turndown ratios compared to convention compressor based FGRS. Also, additional innovative parts of this idea is the integration with the existing compression system and the use of only static equipment like ejectors, pipes, valves and water seal drums to recover the waste/flare gas. The idea has very low operating cost compared to conventional flare gas recovery systems, apart from significant gas savings. The unconventional FGRS system was proven successfully in December 2020. The system is currently in operation for 8 months without any interruption and managed to eliminate the total design routine gas flaring rate of 1.825 BSCFY GOSP-A producing facilities. Also, the project resulted in reducing CO2 emission by 106,000 ton/year which positively contributed to the kingdom circular economy initiatives. To further enhance the ejector based FGRS, a US Patent No. 10,429,067 was granted in October 2019 to utilize the Ejector based FGRS concept for Emergency flare gas recovery. The innovative idea includes utilizing multiple ejectors in parallel with provision of different ejectors operating at different pressures that will allow the system to be used to recover flare gas over a range of different flow rates corresponding to different emergency release scenarios. Also, two new patents are under filing to utilize the liquid as motive fluid instead of the gas.
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