喀斯特适生植物固碳增汇策略

通过分析喀斯特地区的土壤化学性质,明确了喀斯特地区植物的固碳增汇的限制因素为岩溶干旱、低营养、高pH、高重碳酸盐等。通过对喀斯特适生植物和非适生植物的无机碳源、氮源的利用以及对低营养的响应差异分析,总结出了喀斯特适生植物交替、高效利用碳酸氢根离子作碳源的开源固碳增汇策略,以较低的营养成本获取较高的光合固碳能力的低成本倍增固碳增汇策略,以及掠夺式吸收限制性的铵态氮和补偿式吸收硝态氮来实现固碳增汇作用的以氮增汇策略等;提出了喀斯特适生植物固碳增汇能力的利用途径,可最大限度挖掘出喀斯特地区植物的固碳增汇潜能。      

昆明市碳源碳汇结构变化及其驱动因子研究

基于碳平衡理论,通过综合分析城市区域内主要自然生态系统的固碳功能,以及主要社会经济活动的排碳行为,构建了城市碳平衡分析模型,并以昆明市为例进行了研究。结果表明:昆明市碳收支不平衡,碳汇对碳源的抵消作用很弱;并且随着社会经济的发展这种不平衡状况在加剧,2010年,昆明市碳平衡系数为1.90,即城市释碳量是固碳量的1.90倍;碳供需余缺(释碳量-固碳量)达到1565.35×104t/a。产值增长是碳排放增加的主要动力,而能源强度下降、能源结构和产业结构调整是减缓碳排放的主要动力。     

Contribution to the Global Warming Mitigation of Marshlands Conversion to Croplands in the Sanjiang Plain,Northeast China

Based on the estimation of greenhouse gases (GHG) emissions and carbon sequestration of the total conversion of marshlands (TMC), marshlands conversion to paddy fields (MCPFs) and marshlands conversion to uplands (MCULs), this study revealed the contribution to the global warming mitigation (CGWM) of paddy fields versus uplands converted from marshlands in the Sanjiang Plain (excluding the Muling‐Xingkai Plain on south of Wanda Mountain), Heilongjiang Province, northeast China. The results showed that the total area of MCPFs and MCULs was 504.23 × 10³ ha between 1982 and 2005. The CGWM per unit area was 45.53 t CO₂eq/ha for MCPFs and that was 23.95 t CO₂eq/ha for MCULs, with an obvious 47.40% reduction. The MCPFs and MCULs ecosystems acted as the carbon sink all of the year. As far as CGWM per unit area is concerned, MCPFs mitigated the greenhouse effect which was greater than MCULs. And it was effective that the implementation of the uplands transformed into paddy fields in Northeast China with regard to marshlands protection and croplands (including paddy fields and uplands) reclamation.     

Repeatability analysis of land time‐lapse seismic data: CO2CRC Otway pilot project case study

Time‐lapse seismics is the methodology of choice for remotely monitoring changes in oil/gas reservoir depletion, reservoir stimulation or CO₂ sequestration, due to good sensitivity and resolving power at depths up to several kilometres. This method is now routinely applied offshore, however, the use of time‐lapse methodology onshore is relatively rare. The main reason for this is the relatively high cost of commercial seismic acquisition on land. A widespread belief of a relatively poor repeatability of land seismic data prevents rapid growth in the number of land time‐lapse surveys. Considering that CO₂ sequestration on land is becoming a necessity, there is a great need to evaluate the feasibility of time‐lapse seismics for monitoring. Therefore, an understanding of the factors influencing repeatability of land seismics and evaluating limitations of the method is crucially important for its application in many CO₂ sequestration projects. We analyse several repeated 2D and 3D surveys acquired within the Otway CO₂ sequestration pilot project (operated by the Cooperative Research Centre for Greenhouse Technologies, CO2CRC) in Australia, in order to determine the principal limitations of land time‐lapse seismic repeatability and investigate the influence of the main factors affecting it. Our findings are that the intrinsic signal‐to‐noise ratio (S/N, signal to coherent and background noise levels) and the normalized‐root‐mean‐square (NRMS) difference are controlled by the source strength and source type. However, the post‐stack S/N ratio and corresponding NRMS residuals are controlled mainly by the data fold. For very high‐fold data, the source strength and source type are less critical.     

注入速率对CO_2地质储存封存潜力的影响分析

国内某著名煤炭企业计划实施每年10万吨的CO2地质储存（CCS）项目,拟选了5组地层做为目标储层。但所选封存层平均渗透率在0.15~0.6mD,平均孔隙度在2~6%,属于低渗低孔地层,如不进行人工压裂提高注入层渗透率,要实现预定存储目标尚有一些困难。笔者在研究中发现,除对目标层进行一定的水裂酸化处理提高地层渗透特性可以显著提高注入性和存储能力外,CO2注入速率的变化对地层的封存能力和注入性也有明显影响。运用TOUGH2-ECO2N软件分别模拟了无水裂及水裂情况下8种不同注入速率下这些目标存储层的压力变化及CO2封存状态比例及理论最大封存能力。模拟结果表明使用水裂酸化方法对储层进行处理后,不仅可以使注入总量达到项目要求,还可使系统理论最大储存能力提高55%;并且在灌注过程中采用变速灌注方式,可以有效控制系统压力积聚,对将来实际灌注压力控制具有重要意义。     

气候变化情景下中国陆地生态系统碳吸收功能风险评价

气候变化会对陆地生态系统的碳吸收产生影响,从而改变其碳的源汇功能.因此,评估未来气候变化下陆地生态系统碳吸收功能面临的风险,可以为中国应对气候变化措施的制定和国际碳排放谈判提供科学依据.本文采用大气-植被相互作用模型对气候变化情景下净生态系统生产力进行模拟,运用线性倾向估计方法确定碳吸收功能风险评估标准,对中国陆地生态...     

煤层处置CO2 的二元气- 固耦合数值模拟

利用不可开采煤层处置二氧化碳可以有效控制温室气体的排放量并可驱动和增加煤层气资源的开采量。二氧化碳注入煤层处置后引入一个复杂的CH4-CO2二元气体与煤体的气固耦合问题,耦合了二元气体竞争吸附、竞争扩散,气体渗流以及煤体变形过程。基于COMSOL Multiphysics建立了二元气固耦合的有限元数值模型,并应用数值模拟实验对二元气固耦合进行了机理分析。模拟结果表明,CO2注入煤层后不断驱替CH4,CH4组分明显减少;气体吸附引起的煤层膨胀量可以抵消部分有效应力引起的压缩变形,由于CH4-CO2二元气体较单一CH4引起的煤层吸附膨胀量大,二氧化碳注入煤层后可以缓解煤层的压缩变形;不同孔隙压力条件下,吸附膨胀与孔隙压力两者竞争作用引起的煤层净变形不同,而净变形也控制着煤层孔隙压力和渗流率的变化,煤层渗透整体呈现先降后升,模拟进行到4.66×107 s时煤层渗透率发生反弹。