海洋碱性矿物(橄榄石)固碳量计算方法研究  

Study on the Calculation Method for Carbon Sequestration Quantity of Marine Alkaline Minerals (Olivine)

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作  者:张敏吉 郭雪飞 温阳 何庆阳 于航 

机构地区:[1]中海油研究总院,北京

出  处:《海洋科学前沿》2024年第4期161-170,共10页Advances in Marine Sciences

摘  要:海洋碳汇的开发目的是利用海洋生态修复、大型藻类养殖和海洋碱化等人工技术,增强海洋吸收和储存CO2的能力,以减缓全球变暖。目前,随着全球气候变化问题日益严峻,海洋碱性矿物固碳技术作为一种创新的海洋碳汇方法,正逐渐受到重视。海水中固定的碳量是海洋碳汇的关键部分,其量级受多种因素影响,如海水温度、盐度、pH值和海洋生物活动等。我国在海水固碳量的计算方法上仍缺少研究。本研究针对海洋碱性矿物固碳技术,探讨了计算固碳量的方法,通过分析海洋碱性矿物的固碳过程,建立了计算模型,为评估该技术的实际应用效果提供了理论基础。本研究提出的海水碱化速率计算方法,已通过实验室规模的、使用真实海水进行的海洋碱性矿物溶解实验的验证。实验结果显示,该方法计算精度较高,能满足海洋碱性矿物增汇项目后续应用的需求。The development of ocean carbon sinks aims to utilize artificial techniques such as marine ecological restoration, large-scale algae cultivation, and seawater alkalization to enhance the ocean’s capacity to absorb and store carbon dioxide, thereby mitigating global warming. Currently, with the increasing severity of global climate change issues, ocean alkaline mineral carbon sequestration technology, as an innovative method of ocean carbon sinks, is gradually gaining attention. The amount of carbon fixed in seawater is a crucial component of ocean carbon sinks, and its magnitude is influenced by various factors, such as seawater temperature, salinity, pH value, and marine biological activities. There is still a lack of research on computational methods for the amount of carbon fixed in seawater in China. This study focuses on the ocean alkaline mineral carbon sequestration technology and explores methods for calculating the fixed carbon amount. By analyzing the carbon sequestration process of ocean alkaline minerals, a computational model has

关 键 词:海洋碳汇 碱性矿物固碳技术 固碳量 计算方法 

分 类 号:P73[天文地球—海洋科学]

 

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