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评估浮式油藏制蓝氢作为深水海上天然气处理的替代方案
Assessment of floating reservoir-to-blue-hydrogen as alternative for deep-water offshore processing of natural gas
| 作者 | Andreia Zanett · José Luizde Medeiro · Ofélia de Queiroz F.Araúj |
| 期刊 | Energy Conversion and Management |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 342 卷 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | Techno-economic viability of producing offshore 1.5 MMSm3/d of H2-BLUE is assessed. |
语言:
中文摘要
摘要 在可再生能源电气化脱碳倡议中,电解水制氢(绿色氢,Hydrogen GREEN)作为一种无碳能源载体,其推广应用面临高成本和基础设施缺乏的挑战。与此同时,通过蒸汽甲烷重整结合碳捕集与封存技术生产的低碳氢——蓝氢(Hydrogen BLUE),能够在可承受的成本下推动氢能经济发展。蓝氢生产需要二氧化碳的处置途径,而偏远海上油藏的提高采收率(EOR)技术为此提供了可行选择。本研究探讨了一种新颖的概念:浮式海上油藏制蓝氢(Reservoir-to-Hydrogen BLUE),即将蓝氢生产与共享生产设施的海上油气田提高采收率作业进行集成。采用Aspen HYSYS模拟器求解质量-能量平衡,并设计了日产1.5百万标准立方米蓝氢规模的油藏制蓝氢系统单元操作。蒸汽甲烷重整过程耦合了变压吸附(PSA)用于蓝氢提纯,以及水溶液单乙醇胺吸收法(Aqueous-Monoethanolamine Absorption)用于二氧化碳脱除。结果表明,碳排放强度从传统的9.2 kg CO₂/kg H₂降低至1.40 kg CO₂/kg H₂-BLUE。该海上油藏制蓝氢系统的平准化氢气成本达到4.30美元/千克H₂-BLUE,并实现净现值3.795亿美元(投资回收期为11年)。海上油藏制蓝氢的经济性受益于油价以及提高采收率的补偿机制,后者设定为每吨注入的二氧化碳获得2桶原油的回报,从而实现了二氧化碳的货币化并提升了蓝氢的经济竞争力。海上油藏制蓝氢具备独特优势:它是一种“口袋式”、中等规模、浮动式、灵活且可移动的油藏制氢系统(即能够服务于多个油气田的脱碳需求,并可在灾难、战争等极端情况下转移)
English Abstract
Abstract Among renewable electrification decarbonization initiatives, lies electrolysis hydrogen production (Hydrogen GREEN ), a carbon-free energy carrier whose deployment faces high costs and lack of infrastructure. Meanwhile, low-carbon hydrogen production from Steam-Methane-Reforming with carbon capture and storage – Hydrogen BLUE – can fuel hydrogen economy at accessible costs. Hydrogen BLUE demands a carbon dioxide destination, which can be Enhanced Oil Recovery at remote offshore reservoirs. This work investigates a novel concept: floating offshore Reservoir-to-Hydrogen BLUE wherein Hydrogen BLUE production is integrated with Enhanced Oil Recovery over offshore oil–gas fields sharing production infrastructure. Aspen-HYSYS simulator solved mass-energy balances and designed unit operations of Reservoir-to-Hydrogen BLUE at 1.5 MMSm 3 /d of Hydrogen BLUE . Steam-Methane-Reforming was coupled to Pressure-Swing Adsorption for Hydrogen BLUE purification and to Aqueous-Monoethanolamine Absorption for carbon dioxide removal. Results show carbon emission reduction from 9.2 kg CO2 /kg H2 to 1.40 kg CO2 /kg H2-BLUE . Offshore Reservoir-to-Hydrogen BLUE attains Levelized Cost of Hydrogen at 4.30 USD/kg H2-BLUE and a net value of 379.5 MMUSD (11 years payback-time). Economic performance of offshore Reservoir-to-Hydrogen BLUE is boosted by oil price and Enhanced Oil Recovery remuneration factor taken as 2 bbl OIL /t CO2 , which monetizes carbon dioxide and leverages Hydrogen BLUE . Offshore Reservoir-to-H 2 BLUE brings exclusive advantages: it is a “pocket”, medium-scale, floating, flexible, and movable Reservoir-to-H 2 BLUE (i.e., it can help to decarbonize several oil-&-gas fields and can flee from cataclysms, wars, etc).
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SunView 深度解读
该海上蓝氢制备技术为阳光电源储能系统开辟新应用场景。海上平台电解制氢需大功率PCS系统,ST系列储能变流器可平抑波动性负荷冲击;PowerTitan集成方案适配海洋环境高盐雾、高湿度工况。氢能-储能耦合系统中,GFM控制技术可实现微电网独立运行,VSG技术提升系统惯量。该场景启发阳光开发抗腐蚀封装的海上专用储能产品,并探索氢储能与电化学储能协同调度策略,支撑海上油气田绿色转型。