Formation mechanism,experimental method,and property characterization of grain-displacing methane hydrates in marine sediment: A review     

Yong-chao Zhang  Le-le Liu  Gao-wei Hu  Qing-tao Bu  Cheng-feng Li  Zheng-cai Zhang  Jian-ye Sun  Chang-ling Liu 《China Geology》2022,5(2):345-354

Grain-displacing hydrate deposits exist at many marine sites, which constitute an important part of methane hydrate resources worldwide. Attributed to the difficulties in acquiring field data and synthesizing experimental samples, the formation and property characterization of grain-displacing hydrate remains less understood and characterized than the pore-filling hydrate in current literature. This study reviews the formation mechanisms of grain-displacing hydrate from the perspective of geological accumulation and microscale sedimentary property. The experimental methods of synthesizing grain-displacing hydrate in the laboratory and the current knowledge on the property of grain-displacing hydrate sediment are also introduced. Shortcomings in current theories and suggestions for future study are proposed. The work is hoped to provide valuable insights for the research into the hydrate accumulation, geophysics, and hydrate exploitation targeted at the grain-displacing hydrate in the marine sediments.©2022 China Geology Editorial Office.  相似文献   

Origin,discovery, exploration and development status and prospect of global natural hydrogen under the background of “carbon neutrality”     

《China Geology》2022,5(4):722-733

Global energy structure is experiencing the third transition from fossil energy to non-fossil energy, to solve future energy problems, cope with climate change, and achieve net-zero emissions targets by 2050. Hydrogen is considered to be the most potential clean energy in this century under the background of carbon neutrality. At present, the industrial methods for producing hydrogen are mainly by steam-hydrocarbon (such as coal and natural gas) reforming and by electrolysis of water, while the exploration and development of natural hydrogen had just started. According to this literature review: (1) Natural hydrogen can be divided into three categories, including free hydrogen, hydrogen in inclusions and dissolved hydrogen; (2) natural hydrogen could be mainly from abiotic origins such as by deep-seated hydrogen generation, water-rock reaction or water radiolysis; (3) natural hydrogen is widely distributed and presents great potential, and the potential natural hydrogen sources excluding deep source of hydrogen is about (254±91)×10⁹ m³/a according to a latest estimate; (4) at present, natural hydrogen has been mined in Mali, and the exploration and development of natural hydrogen has also been carried out in Australia, Brazil, the United States and some European countries, to find many favorable areas and test some technical methods for natural hydrogen exploration. Natural hydrogen is expected to be an important part of hydrogen energy production in the future energy pattern. Based on a thorough literature review, this study introduced the origin, classification, and global discovery of natural hydrogen, as well as summarized the current global status and discussed the possibility of natural hydrogen exploration and development, aiming to provide reference for the future natural hydrogen exploration and development.©2022 China Geology Editorial Office.  相似文献   

Genetic model and exploration target area of geothermal resources in Hongtang Area,Xiamen, China          下载免费PDF全文

Liu Chun-lei  Lu Chen-ming  Li Ya-song  Hao Qi-chen  Cao Sheng-wei 《地下水科学与工程》2022,10(2):128-137

The geothermal resources in Fujian Province are mainly hydrothermal resources of medium-low temperature. To better understand the whole process and conditions of heat control in the middle and deep crust, this study focuses on the analysis of heat accumulation model in Hongtang Area of Xiamen, and the main conditions of the model such as faults and sags are explored and interpreted in detail by using gravity and wide-field electromagnetic methods. 4 main faults (F33, F2, F12 and HT-F1) and 10 secondary faults (HT-F2, HT-F3, HT-F4, HT-F5, HT-F6, HT-F7, HT-F8, HT-F9, HT-F10 and HT-F11) were inferred, and the distribution range of sags was delineated. The convective geothermal system is composed of four components: Heat source, geothermal reservoir, heat-conductive fault and heat retaining cover, which form a quaternary heat accumulation model. According to the model, the intersection of the main faults F12, HT-F1 and F33 can be delineated as the primary target area of geothermal exploration, while the intersection of the secondary faults (F12 and HT-F6; F12 and HT-F2; HT-F9, HT-F10 and F12; F12 and HT-F11; F33 and HT-F3; HT-F8 and HT-F3; HT-F2, HT-F10 and HT-F1) can be delineated as the secondary target area. Borehole DR01, which is located in the primary target area, shows that the water temperature increases from fast to slow in the depth range of 0–500 m, and stays at 36℃ below 500 m. The reliability of the heat accumulation model and the target area was tested via geothermal boreholes, which is of great significance to the exploitation and utilization of geothermal resources in Hongtang Area of Xiamen.  相似文献   

储层致密化与油气充注的关系:以三肇凹陷白垩系扶余油层为例     

斯尚华  胡张明  刘吉  刘云飞  耳闯  杨哲恒  何俊昊 《现代地质》2021,35(6):1854-1863

为了明确松辽盆地三肇凹陷扶余油层储层致密化与油气充注相关性,利用微米CT、流体包裹体显微分析、盆地模拟等方法,研究了该储层微观孔喉特征,且定量分析了其成藏期。根据储层孔隙演化信息分析了研究区储层致密化过程和油气成藏的关系。结果发现:三肇凹陷扶余致密储层岩石类型以长石岩屑砂岩和岩屑长石砂岩为主,孔喉特征表现为窄喉道、宽孔隙、孔喉配置差、微细喉道总体积大等特征。压实作用和胶结作用为储层致密化重要成因,储层致密时间应该在嫩江组末之前。流体包裹体分析结果表明三肇凹陷扶余储层油充注分为早期和晚期,相应的充注时间分别距今77~74 Ma、67~65 Ma,分别对应于嫩江组沉积期和明水组沉积末期。综合对比扶余油层油气成藏历史和储层孔隙演化特征,认为原油充注发生储层致密化之后,即先致密后成藏。  相似文献   

超临界态甲烷密度研究     

张新宾  宋党育  李云波  齐永安  范顺利 《煤田地质与勘探》2021,49(1):137-142,150

超临界甲烷密度不仅是非常规天然气资源量计算与吸附能力测定的重要参数,同时也是衡量超临界甲烷扩散效率与溶解有机物能力的主要指标。通过对比分析各种气体状态方程的适用性,认为基于亥姆霍兹能量基本状态方程可以准确计算0~30 MPa、270~360 K条件下甲烷的密度。利用Microsoft Office Excel编写了甲烷密度的计算程序,与NIST （美国国家标准与技术研究院）商业软件计算结果相比,误差小于0.05%。分析了0~100 MPa、270~360 K范围内甲烷密度的变化规律。结果表明,甲烷密度随压力增大而增大,在低于30 MPa时增速较大且对温度的敏感性较强,高于30 MPa时增速逐渐变缓,且敏感性减弱。在煤层原位条件下随着埋深的增大,甲烷密度随温度升高而减小,随压力增大而增大;在温度与压力共同作用下,甲烷密度呈先增速不变、近似线性增加,后增速逐渐减小、凸曲线形增加的变化规律。游离态甲烷密度受温度的影响比吸附态甲烷小,是深部煤层气资源增量的主要贡献者。研究结果为深部煤层气赋存及其潜力预测提供了基础参数。   相似文献   

未来我国气体能源发展动向研究     

宋科余  龙涛  段红梅  陈其慎  张艳飞  郑国栋 《地球学报》2021,42(2):187-195

"十四五"期间我国能源需求增速将有所放缓,但仍将处于高位,随着经济社会的不断恢复以及环境问题的显现,未来能源安全形势仍然严峻,及早建立清洁、高效、安全、多元化的现代能源体系,调整优化我国能源供给结构迫在眉睫.本文通过判断我国气体能源发展现状,构建气体能源优先发展评价指标体系,运用层次分析法与灰色关联度评价法对各气体能源进行对比分析得出,消耗排放、燃料热值、国际合作、政策扶持、生产成本、资源潜力、生产排放等因素对各气体能源发展影响最大;未来应优先发展致密气、页岩气、煤层气,理性发展煤制气,科学布局可燃冰开发规划;建议加大气体能源勘探投入,提高天然气供能比例,摸清页岩气资源家底,突破核心技术,提升环保监督、安全生产意识,优化统一现有政策.  相似文献   

泉州官桥地区地热勘探靶区及成因模式探讨     

陆晨明  刘春雷  李亚松  郝奇琛  曹胜伟  董岩 《地质论评》2021,67(5):1345-1356

福建省地热资源主要以中低温水热系统为主,对于其中深部的控热过程及条件目前还存在认识上的不足。本次研究综合重力及广域电磁法对研究区的断层及凹陷进行了详细的勘测和解译,推测出5条主断裂和10条次级断裂,并划定出凹陷区的分布范围。泉州官桥地区的对流型地热资源是储热岩体、导热断层和保热盖层的“三元”聚热模式。根据该聚热模式,一级断裂F31与F8的交汇部位可圈定为一级地热勘探靶区,GQ-F2与GQ-F3和GQ-F4、GQ-F7与F29、F1与F30、GQ-F10与GQ-F11的交汇部位可圈定为二级地热勘探靶区。在一级地热勘探靶区内布设的DR02孔显示,0~300m深度水温增速由快至慢,300m深度以下温度稳定在48℃。利用地热验证钻孔检验了聚热模式及圈定靶区的可靠性,这对于泉州官桥地区的地热资源开发利用具有重要意义。  相似文献   

基于恒速压汞技术研究页岩气储层孔隙结构:以湘西北地区五峰组页岩为例     

王静 《地质与勘探》2021,57(2):450-456

页岩气储层孔隙结构是页岩气富集成藏、储层评价和优选有利区的关键参数,区分孔隙和喉道是表征页岩气储层孔隙结构的关键。本文选择4块具有不同渗透率的湘西北地区奥陶系五峰组页岩为研究对象,基于恒速压汞实验讨论孔隙和喉道的大小、分布特征及其相互关系以及与渗透率的联系。结果表明:具有不同渗透率的页岩样品表现为较为相近的孔径分布特征但差异较大的喉道分布特征。页岩样品渗透率的大小与孔隙半径没有明显相关关系;喉道大小及其分布特征是控制低渗储层孔隙结构的关键要素之一。渗透率较低页岩样品的喉道以喉道半径小且集中分布为特征,而渗透率较大页岩样品的喉道以喉道半径大呈分散分布但主要以大喉道为特征。喉道特征是研究页岩气储层储集空间和吸附能力的重要部分,在以后对页岩气的勘探开发中应特别注意及重视。  相似文献   

同轴双向回转钻进破岩效率研究          下载免费PDF全文

曹彦伟  李谦 《探矿工程》2021,48(S1):70-78

国内外相关研究均显示同轴双向回转可有效降低钻具振动和提高破岩效率,但双向回转相对传统单向回转的钻进效率的提升水平研究较少。据此,本文建立双向回转钻头以及单向回转钻头与岩石相互作用的有限元模型,以破岩比功作为评价指标量化比较分析了2种钻头的破岩效率。通过定义双向钻头内外壁尺寸差、内外钻头的间隙、内钻头壁厚与双向钻头内外壁尺寸差之比、内外钻头转速比和内外钻头底部高度差5种核心参数,并设计正交试验完成了仿真分析。结果显示,内外钻头高度差与内外钻头间隙对于破岩比功影响比较小,内外钻头尺寸差、内外钻头转速比和内钻头壁厚与双向钻头内外尺寸差之比对破岩比功影响显著。  相似文献   

基于锂离子电池储能技术的便携式钻机研制与应用          下载免费PDF全文

谭春亮  渠洪杰  彭新明  卢倩  张沁瑞  岳永东  苏兴涛  祝强 《探矿工程》2021,48(S1):361-365

锂离子电池作为现代文明中重要的能量载体被广泛且大量地使用。浅层钻探是一种重要的浅表层调查取样手段,将锂离子电池储能技术应用于便携式钻机的研发,可解决山区、林草区等特殊地貌区防火期内调查取样的难题,实现浅钻调查零碳排,助力绿色勘查发展;本文重点介绍了锂电池电动钻机的技术参数、特点及试验情况,该机型具有体积小、质量轻、无噪音、无污染,主要钻进参数可显示、可调控,钻进数据可采集、可存储等特点,锂离子电池储能技术在便携式钻机中的应用为浅钻装备数字化、信息化和智能化发展奠定了基础。  相似文献