干热岩勘查开发进展及展望

清洁能源开发利用是当前全球可持续发展共同关注的资源环境问题。干热岩指埋藏于地球深部、内部不存在或仅存在少量流体,温度高于180℃的高温岩体,作为未来人类可持续利用的重要战略可接替清洁能源,其开发利用备受关注。文章在梳理总结国内外典型干热岩勘查与开发利用进展的基础上,针对干热岩资源研究方向提出几点思考,希望对我国未来干热岩勘查与开发工作起到有益参考借鉴作用。自20世纪70年代提出干热岩概念以来,世界各国开展了多处勘查开发工程探索,在取得大量理论技术突破的同时,也存在不少失败的案例。虽然全球投入建设的干热岩开发工程数量总体上不断增加,为干热岩勘查开发积累了宝贵经验,但是迄今为止尚未建造有商业规模的储层,由于缺乏持续经费支持、水力压裂诱发微地震等问题,多数被迫终止。目前来看,全球干热岩开发正逐渐进入新的探索阶段,欧美各国纷纷加强相关基础理论和技术攻关。我国近年来在干热岩资源调查评价和勘查开发方面取得了重要阶段性成果,编制了大地热流、居里面深度、控热构造等系列基础图件,初步估算了我国陆域干热岩资源潜力,并在青海共和、福建漳州、广东惠州、河北马头营、山西大同、江苏兴化等地区相继开展了干热岩勘查开发探索。其中,青海共和盆地恰卜恰地区在4000 m深度探获超过200℃的高温干热岩体。2019年在青海共和启动我国首个干热岩勘查试采示范工程,2020年完成干热岩储层规模化建造,有效改造体积超千万立方米,并于2021年实现试验性发电并网,在干热岩深部探测、高温硬岩钻探、规模化储层建造、循环连通、有机朗肯循环发电等方面取得了系列基础成果,推动了我国干热岩在勘查开发方面的实质性进展。总体来看,全球干热岩勘查开发取得了长足进展,实践证明干热岩资源是一种十分有发展前途的绿色能源,有望未来成为全球重要战略能源。然而,干热岩现有开发利用路径及其配套技术、装备与商业化开发预期相比还存在较大差距。我国干热岩资源开发尽管实现了从“0”到“1”的突破,但距离国际水平还有较长的路要走,仍需要在高温硬岩钻完井、深部储层精细刻画、安全规模化储层建造、高效换热取热等方面推动颠覆性技术创新,破解规模化、经济性开发难题。

Assessment of Geological Security and Integrated Assessment Geo-environmental Suitability in Worst-hit Areas in Wenchuan Quake

The Wenchuan earthquake in 2008 and geo-hazards triggered by the earthquake caused large injuries and deaths as well as destructive damage for infrastructures like construction, traffic and electricity. It is urgent to select relatively secure areas for townships and cities constructed in high mountainous regions with high magnitude earthquakes. This paper presents the basic thoughts, evaluation indices and evaluation methods of geological security evaluation, water and land resources security demonstration and integrated assessments of geo-environmental suitability for reconstruction in alp and ravine with high magnitude earthquakes, which are applied in the worst-hit areas （12 counties）. The integrated assessment shows that： （1） located in the Longmenshan fault zone, the evaluated area is of poor regional crust stability, in which the unstable and second unstable areas account for 79% of the total; （2） the geo-hazards susceptibility is high in the evaluation area. The spots of geo-hazards triggered by earthquake are mainly distributed along the active fault zone with higher distribution in the moderate and high mountains area, in which the areas of high and moderate susceptibility zoning accounts for 40.1% of the total; （3） geological security is poor in the evaluated area, in which the area of the unsuitable construction occupies 73.1%, whereas in the suitable construction area, the areas of geological security, second security and insecurity zoning account for 8.3 %, 9.3% and 9.3 % of the evaluated area respectively; （4） geo-environmentai suitability is poor in the evaluated area, in which the areas of suitability and basic suitability zoning account for 3.5% and 7.3% of the whole evaluation area.

美国干热岩“地热能前沿瞭望台研究计划”与中美典型EGS场地勘查现状对比

美国能源部正在实施干热岩"地热能前沿瞭望台研究计划"(FORGE计划)。它是以经典干热岩定义的干热岩勘查开发为约束,通过增强型地热系统(EGS)示范工程建设实践,形成新一代EGS试验平台。美国本着"可复制的结果=巨大的潜力"的理念,实现干热岩勘查开发技术新突破,以满足美国1亿家庭绿色电力供应为实际应用目标。中美典型EGS场地勘查现状对比结果表明:犹他州米尔福德与青海省共和县恰卜恰两个典型EGS场地具可比性,大致处于"并跑"的水平;在天然裂隙系统、原位地应力场、压裂参数获取与压裂方案制定等方面,米尔福德EGS场地有所超前。据此建议有关部门加快青海省共和县恰卜恰EGS场地进入勘查开发阶段,以提高我国干热岩勘查开发技术水平,早日实现EGS工程化。

深部水文地质研究的机遇与挑战

经济社会快速发展需要更多的能源与资源保障,地球深部资源与能源极其丰富。“向地球深部进军”是经济社会发展需要与资源勘查开发技术、经济效益成本承受能力相匹配的必然发展趋势。随着“碳达峰、碳中和”战略目标的提出,绿色低碳高质量发展成为时代发展的主旋律。为满足能源、资源保障和生态环境保护等重大需求,加大清洁能源勘探开发力度、提高碳封存能力、强化地质储能研究等显得尤为重要。深部水文地质作用与此息息相关,亟待重视和加强研究。本文采用文献分析法,通过学科发展历程与热点焦点问题的综合对比研究,对深部地下水分布与循环理论研究、深部地下水地质作用下地热与锂资源成藏、深部地热-干热岩与页岩气等清洁能源开发、深部咸水层CO;地质封存、地质储能等方面涉及的深部水文地质研究现状和未来趋势进行了分析总结,认为深部水文地质在高温高压条件下地下水循环动力机制、物质能量转换过程、水岩相互作用、成热成藏机理和勘查监测技术精准度等方面尚需深入系统的研究,而储层非均质性刻画、热源机制、深部资源能源可持续开发技术、人工干预下深部资源环境演变特征、水力压裂诱发地震以及断层对流体触发的敏感性和触发过程演变等是未来应给予重点关注的关键性问题。

新疆准东地区场地尺度二氧化碳地质封存联合深部咸水开采潜力评估

二氧化碳地质封存联合深部咸水开采技术(CO_(2)-EWR)被认为是有效的碳减排途径之一。在新疆准东地区率先开展CO_(2)-EWR技术,可在实现CO_(2)减排的同时获得咸水,在一定程度上缓解当地的水资源短缺问题,取得环境经济双重效益。以往研究大多以概化模型为主,缺乏工程实践依托,根据准噶尔盆地东部CO_(2)源汇匹配适宜性评价结果,基于我国首个CO_(2)-EWR野外先导性工程试验场地资料,构建拟选CO_(2)-EWR场地西山窑组三维(3D)非均质模型开展了场地尺度CO_(2)-EWR技术潜力研究。研究表明,拟选场地CO_(2)理论封存量为1.72×10^(6)(P50)t,动态封存量为2.14×10^(6) t。采用CO_(2)-EWR技术可实现CO_(2)动态封存量11.18×10^(6) t,较单独CO_(2)地质封存提升5.22倍,同时可增采咸水资源10.17×10^(6) t,CO_(2)采水比率为1∶0.91。同时,该技术可有效缓解因CO_(2)大量注入引起的储层压力累积,提高CO_(2)封存效率,增加咸水开采潜力。本研究可为新疆准东地区实施规模化CO_(2)地质封存联合深部咸水开采工程提供理论依据和技术支撑。

区域地下水污染综合评价研究现状与建议

区域地下水污染综合评价研究是一项总结区域地下水水质特征、评估地下水水质和污染状况、分析其驱动机制、研判其演化趋势的重要基础性工作,也是地下水污染防控以及水质改善的重要依据。受水文地质领域一些传统概念、观念以及技术方法的限制,在水质综合评价、污染评价、天然劣质水与污染的区分、人类活动影响等方面存在诸多问题和挑战,认知的科学性和可靠性不断受到质疑,给政府管理部门的应用和决策带来困惑。本研究通过梳理分析近年来区域地下水污染综合评价的研究现状,回顾总结了在水质综合评价、背景值、污染评价、劣质水和劣变水评估以及人类活动识别等方面存在的问题,提出了几点认识和建议:(1)“指标分类评价-组合表达”的水质及污染综合评价思路,可为解决现阶段水质及污染综合评估容易造成歧义和误导的问题提供新的方向;(2)视背景值的建立不仅能够解决传统概念背景值无法获取的问题,还能有效进行污染判定、劣质水和劣变水评估以及人类活动识别,是一项亟待全面开展的基础性工作;(3)劣质水和劣变水概念及评价思路的提出,对区分天然劣质水和污染水具有借鉴意义,在科学回答这两类水对我国地下水水质的影响、帮助决策者理解水质不安全成因等方面有重要意义,但是方法学方面需要进一步探讨;(4)对人类活动影响的识别和量化,进一步推动了对输入型污染、诱导型水质恶化以及水化学场变化所引起的各种水质问题的认识,进而对判断水质演化趋势、污染防控、分类解决水质问题具有重要的意义。

沂蒙山区典型断陷盆地岩溶地下水系统特征:以莱芜盆地为例

2011年以来,中国地质调查局在沂蒙山区组织实施了1∶5万标准图幅水文地质调查4万余km^(2),并在严重缺水村镇开展了大量的找水打井示范工作,获得了较为丰富的地质数据,对断陷盆地地下水流系统取得了新认识。受中新生代构造影响,沂蒙山区发生断裂褶皱、伸展滑脱及岩浆侵入活动,形成一系列"南超覆北断陷"的地堑—半地堑盆地,并最终形成现今典型的"盆—山"岩溶水文地质结构,及以盆地为单元的相对独立的岩溶地下水流系统。为研究沂蒙山区地下水流系统发育特征,选择莱芜盆地为典型研究区,基于野外地质调查,通过综合分析盆地南北两侧地貌单元、含水岩组立体空间分布及地下水水位、水化学及同位素结果等,探讨了沂蒙山区典型"盆—山"结构塑造的多级岩溶地下水流系统特征。结果表明,莱芜盆地岩溶地下水由盆地外围向盆地中心呈"向心式"径流;受人类活动影响、地质构造控制和含水层分布制约,盆地南北两侧地下水流系统特征存在差异:盆地南部发育中间和局部两级地下水流系统;盆地北部则仅发育单一的局部地下水流系统,但占有已勘查论证的近1/2的地下水水源地。此外,研究发现在大汶河最低侵蚀基准面,区域滑脱构造及热液混合作用拆离的空隙,与岩层面、层间裂隙、顺层溶蚀空隙等共同构成立体的岩溶地下水网络,影响着岩溶水循环途径及深度。以此认识为指导,实施的探采结合井成井率达到86%,强化了地下水流系统理论在北方基岩山区水文地质工作中理论与实践的结合。

Potential and Suitability Evaluation of CO_2 Geological Storage in Major Sedimentary Basins of China,and the Demonstration Project in Ordos Basin

From 2010 to 2012, the China Geological Survey Center for Hydrogeology and Environmental Geology Survey （CHEGS） carried out the project ＂Potential evaluation and demonstration project of CO2 Geological Storage in China＂. During this project, we developed an evaluation index system and technical methods for the potential and suitability of CO2 geological storage based on China＇s geological conditions, and evaluated the potential and suitability of the primary basins for COz geological storage, in order to draw a series of regional scale maps （at a scale of 1：5000000） and develop an atlas of the main sedimentary basins in China. By using these tools, we delineated many potential targets for CO2 storage. We also built techniques and methods for site selection and the exploration and assessment of CO2 geological storage in deep saline aquifers. Furthermore, through cooperation with the China Shenhua Coal to Liquid and Chemical Co., Ltd., we successfully constructed the first coal-based demonstration project for CO2 geological storage in deep saline aquifers in the Yijinhuoluo Banner of Ordos in the Inner Mongolia Autonomous Region, which brought about the basic preliminary theories, techniques, and methods of geological CO2 storage in deep saline aquifers under China＇s geological conditions.

Distribution of δ^(34)S and δ^(18)O in SO_4^(2-) in Groundwater from the Ordos Cretaceous Groundwater Basin and Geological Implications

The Ordos Cretaceous Groundwater Basin, located in an arid-semiarid area in northwestern China, is a large-style groundwater basin. SO4^2- is one of the major harmful components in groundwater. Dissolved SO4^2- concentrations, and δ^34S-SO4^2- and δ^18O-SO4^2- in groundwater from 14 boreholes and in gypsum from aquifer were analyzed. Results show that SO4^2- in shallow groundwaters originates from precipitation, sulfide oxidation, and dissolution of stratum sulphate, with a big range of δ^34S values, from -10.7‰ to 9.2‰, and addition of SO4^2- in deep groundwater results from dissolution of stratum sulphate, with bigger δ^34S values, from 7.8‰ to 18.5‰, compared with those in shallow groundwater. This research also indicates that three types of sulphate are present in the strata, and characterized by high δ^34S values and high δ^18O values-style, high δ^34S values and middle δ^18O valuesstyle, middle δ^34S values and low δ^18O values-style, respectively. The δ^34S-SO4^2- and δ^18O-SO4^2- in groundwater have a good perspective for application in distinguishing different groundwater systems and determining groundwater circulation and evolution in this area.

Experiments and Analysis of the Hydraulic Fracture Propagation Behaviors of the Granite with Structural Planes in the Gonghe Basin

Hydraulic fracture(HF) propagation behavior is significant when building enhanced geothermal systems(EGS). HF geometry is closely related to the structural planes(SPs) in hot dry rock(HDR), such as natural fractures(NFs), quartz veins(QVs) and lithologic interfaces(LIs). However, the HF behaviors in HDR have not been well understood, especially the influence of multiple SPs on the HF geometry. To clarify this mechanism, several groups of physical simulation experiments of hydraulic fracturing were conducted to investigate the intersection relationship between the HFs and the SPs. Results show that the HF geometry shows great differences when intersecting with different SPs. In summary, the HF geometry displays four basic patterns, namely, propagation along the SPs, branching, capture, penetration/non-dilation. The fluctuation degree of the pressure-time curve and the HF complexity show a positive correlation. The cementing strength of the SP and their different mechanical properties from rock matrix influence the HF behaviors significantly. Therefore, the HF shows diverse geometries when intersecting with the NFs and LIs, while propagating along the QV when intersecting with it. For the complex networks, it is favorable for the HF to penetrate through and dilate several SPs, rather than simply cross or propagate along the SP.

干热岩地热能开发技术挑战与发展战略

为推动我国干热岩地热开发取得新突破,形成一批干热岩开发示范区域,支撑国家能源结构调整和“双碳”目标实现,总结归纳了推进干热岩商业化开发的底层技术、关键技术以及前沿和颠覆性技术.根据国内外干热岩勘查、开发利用现状,结合青海共和干热岩试采科技攻坚战实践,将干热岩地热资源评价与选址、干热岩高效低成本钻井技术、干热岩地热利用技术定为底层技术;干热岩体精细勘查与刻画、高效复杂裂隙网络储层建造技术、有效微地震控制技术、裂缝网络连通与储层表征技术定为关键核心技术;井下液体爆炸造缝技术、井下原位高效换热发电技术、CO_(2)等不同工质换热发电技术列为前沿和颠覆性技术.

共和盆地壳内部分熔融层存在的地球物理证据与干热岩资源区域性热源分析

新生代以来,共和盆地及其周缘造山带无火山、岩浆活动,印支期隐伏花岗岩体岩浆余热与放射性元素衰变生热等难以构成共和盆地干热岩资源的主要热源,而共和盆地又为一高温地热异常盆地.目前已基本探明了共和县恰卜恰与贵德县热水泉干热岩体2处,圈定出干热岩勘查目标靶区16处.区域重力和区域航磁调查、区域天然地震成像、盆地尺度天然地震背景噪声层析成像勘查,以及超高分辨率重力异常、电阻率与Rayleigh波群相速度线性反演结果均表明共和盆地下伏发育有壳内部分熔融层,进而构成地处板内环境、高热流区共和盆地干热岩资源的区域性热源.盆地尺度MT勘查结果表明,共和盆地西盆地壳内部分熔融层埋深15~35 km,东西向长约41 km,南北向宽约34 km,厚度2~12 km.综合分析认为,该部分熔融层熔融程度最高可达4%~7%,15 km深处温度约为574℃,主体位于贵南南山推覆体系与共和准推覆体系深部主拆离滑脱推覆界面之下,兴海大型复合推覆体系主拆离滑脱推覆界面之上.挽近地质时期深构相、多层次、近水平展布的韧性拆离滑脱推覆构造界面的连续动态剪切摩擦生热,可能是部分熔融层形成的主要因素.