Comments on “Distillability sudden death in qutrit qutrit systems under thermal reservoirs”

In a recent paper （2012 Chin. Phys. B 21 084205）, the authors studied the problem of distillability sudden death. We find that their equation of motion is incorrect and consequently the rest of the paper is wrong. Even apart from starting with a wrong equation of motion, their description of the phenomenon of distillability sudden death is totally misleading and needs to be rectified. To this aim, we show that certain initially prepared free-entangled states become bound-entangled in a finite time under thermal reservoirs. Moreover, in contrast with zero-temperature reservoirs, simple local unitary transformations cannot completely avoid distillability sudden death.

Sudden death and revival of entanglement of two qubits coupled collectively to a thermal reservoir

In this paper, we investigate the entanglement of two qubits coupled collectively to a common thermal environment and find that the the collective decay can lead to a revival of the entanglement that has already been destroyed. We also show that the ability of the system to revival entanglement relies on the mean photon number of the thermal environment and the degree of entanglement of the initial state.

Dynamical evolution of photon-added thermal state in thermal reservoir

The dynamical behavior of a photon-added thermal state(PATS) in a thermal reservoir is investigated by virtue of Wigner function(WF) and Wigner logarithmic negativity(WLN), where this propagation model is abstracted as an input–output problem in a thermal-loss channel. The density operator of the output optical field at arbitrary time can be expressed in the integration form of the characteristics function of the input optical field. The exact analytical expression of WF is given, which is closely related to the Laguerre polynomial and is dependent on the evolution time and other interaction parameters(related with the initial field and the reservoir). Based on the WLN, we observe the dynamical evolution of the PATS in the thermal reservoir. It is shown that the thermal noise will make the PATS lose the non-Gaussianity.

Evaluation method of underground water storage space and thermal reservoir model in abandoned mine

A large number of mines are closed or abandoned every year in China.Geothermal utilization is one of the important ways to efficiently reuse underground resources in abandoned mines.How to calculate the volume and distribution of underground water storage space is the key to accurately evaluate the sustainable geothermal production in abandoned mines.In this paper,according to the multi-scale characteristics of the underground space in abandoned mine,the flow and heat transfer equations in the multi-scale space are sorted out systematically,and the calculation methods of different secondary space volumes are derived in detail.Taking Jiahe abandoned mine as the background,the volume and distribution of underground secondary space are calculated,and three heat storage evaluation models considering different water storage spaces are established by using COMSOL.The simulation results show that there are great differences among different models,and the results of the equivalent porous media model considering the multi-scale space are most consistent with the reality.Sensitivity analyses of key parameters model results indicated that the heat production is closely related to not only the recharge flow rate but also the recharge temperature and operating time.Furthermore,the energy saving and emission reduction benefits of geothermal utilization in abandoned mines are calculated,the results show that geothermal utilization of abandoned mines can effectively reduce energy consumption and CO_(2)emissions,and it has great economic benefits.

旅大特稠油储层新型完井液体系的构建与评价

旅大A油田是一个埋藏浅、油质稠、储量大的典型重质特超稠油油藏,热采开发是其有效的开发方式。稠油油藏在储层物性、流体性质及开采工艺方面与常规油藏存在较大差异,现有常规水基完井液体系无法满足需求。针对该油田稠油热采工艺,充分考虑稠油油藏储层特性、稠油预防乳化增稠和降黏促排的新需求,开展新型完井液体系的构建。通过抑制性、降黏助排性、配伍性及热采高温环境下储层保护效果的评价,建立起适用于稠油的新型有机胺完井液体系。该体系在提升稠油热采井开发储层保护效果的同时,降低完井液综合成本,为渤海油田稠油开发提质增效提供有力保障。

玛西斜坡区风城组高含盐致密储集层流体识别

准噶尔盆地玛西斜坡区二叠系风城组发育碱湖沉积的高含盐致密储集层,其油水关系复杂,流体识别难度大。利用岩性扫描测井资料构建饱含盐水地层热中子宏观俘获截面,并利用测井热中子宏观俘获截面与饱含盐水地层热中子宏观俘获截面的差值构建含油性敏感因子,再利用氯元素相对产额与总孔隙度比值构建含盐度敏感因子,将含油性敏感因子与含盐度敏感因子交会形成流体识别图版。实例应用表明,利用该流体识别图版可以对储集层流体性质进行准确判断,为试油选层提供依据。

黔西南地区地热储层结构特征——以望谟平洞地热储层为例

基于地温梯度的地热资源开发受区域地热储层结构及导水构造控制。文章以贵州省望谟县平洞地热储层为研究对象,依据地质调查和ZK1钻孔揭露的地热储层结构为依据,分析区内热储层岩性特征、热储构造、导水构造、地温场特征、地热流体水化学特征,以深入理解地热流体循环机制。研究表明:研究区地处上里地背斜倾伏端,地热流体接受大气降水补给,沿裂隙、断裂带进入深循环并汇集于热储层及断层破碎带,径流过程主要受断裂构造控制,显示出典型的褶皱隆起断裂对流型特征;区内地下水化学类型为HCO_(3)-Ca·Mg型;地热流体增温过程主要由地温梯度控制,平均地温梯度值为2.34℃·(100 m)^(-1),热储构造和导水构造对增温促成也有一定影响。研究成果可为黔西南地区及其他类似地热储层的地热能开发提供参考。

关中盆地新近系蓝田-灞河组热储层物性及渗流特征研究

关中盆地地热资源丰富,开发利用地热能有助于调整能源结构、降低雾霾及改善环境。新近系蓝田-灞河组是目前地热开采的主要热储层,明确储层物性及渗流机理对地热资源的高效规模开发利用及回灌具有重要意义。通过钻井岩心及测井资料,结合压汞、铸体薄片、核磁共振等相关测试手段,对渭河盆地新近系主要层位蓝田-灞河组的物性特征、孔隙结构特征、渗流特征进行了详细分析。研究结果表明:①基于地热井及钻孔测井资料,西安凹陷蓝田-灞河组孔隙度为20%~25%,渗透率为100~200 mD,固市凹陷孔隙度为10%~20%,渗透率为1~100 mD,西安凹陷物性条件优于固市凹陷,在平面上孔渗均表现为由盆地边缘向盆地中部增大的趋势。②蓝田-灞河组孔隙以原生粒间孔、粒间残余孔隙为主,局部见少量微裂缝发育,见少量长石溶孔。孔喉分布比较均匀,主要介于10~16μm之间,渗透率贡献值高。出水量大,单位厚度砂岩单位涌水量高,富水性及渗流特征好。③蓝田-灞河组砂岩储层类型属于Ⅱ类储集层,综合评价为高孔隙度渗透层,是最有利的地热开发层段。

关闭矿井采空区破碎岩体再断裂机制及空隙结构演化特性

受“双碳”政策影响,关闭矿井地热开采技术逐渐受到关注。关闭矿井采空区内储热流体提取效率与其渗流特性密切相关,而破碎岩体空隙结构是决定采空区渗流特性的关键因素。因此,需要研究地热开采复杂环境下储热空间破碎岩体空隙结构变形演化特性。笔者基于颗粒离散元数值方法,建立浸水及侧向约束压缩条件下不同级配的破碎岩体数值模型,分析破碎岩体变形行为及二次断裂演化特性,追踪颗粒从岩体骨架结构剥离及空隙内运移规律。得到如下结论:破碎岩体压实过程应力随应变增长可分为3个阶段:初始阶段(0<ε≤0.175),缓慢增长阶段(0.175<ε≤0.275)以及快速增长阶段(ε>0.275)。快速增长阶段应力-应变曲线出现明显波动,破碎岩体二次断裂及应力重分布现象在该阶段最明显。破碎岩体热储环境下空隙率的变化值与初始空隙率成正比,最大达到0.2。当破碎岩体内岩块粒径悬殊大时,接触键应变能最大,断裂能增长缓慢。岩块与颗粒密集区接触部分断裂分布多,与空隙接触部分断裂分布极少。颗粒未剥离岩块时,随岩块运动,整体运动路径复杂速度较小;颗粒剥离瞬间速度突然增大,与岩块碰撞导致速度改变。当颗粒速度减小到与周围岩块相近时,将造成空隙空间的堵塞。研究结果可为关闭矿井储热空间换热效率评估提供理论依据。

基于熵权法-TOPSIS-灰色关联法的储层综合评价:以莺歌海盆地黄流组为例

莺歌海盆地上中新统黄流组是高温高压系统,地层地温梯度超过4℃/100 m、压力系数大于1.6。地热资源潜力丰富,但地热资源评价的相关工作还未开展。通过9口钻井、测井录井、生产资料以及最新7口井地层测温数据和岩石热物性参数测试,在储层储集性能基础上,结合热物性参数,开展储层综合评价工作。以黄流组为例,在储层六参数关系评价基础上,优选孔隙度(Ф)、渗透率(K)、泥质含量(Vsh)、地层系数(DФ)、地层温度(T)、生热率(A)、热导率(J)7个热储评价指标,采用熵权-TOPSIS-灰色关联方法,对该类型热储进行综合评价。研究认为:7个评价指标中,孔隙度、渗透率、地层系数的权重占比较大,分别为21.31%,21.07%和20.42%,是主要影响因素。考虑评价参数的正负理想解的欧氏距离和各指标与正负理想解的灰色关联度,开展不同决策偏好情况下的相对贴近度角度来定量评价,结果显示,储层H1-2、H1-1、H2-2相对贴近度较高,分别为0.624,0.606,0.529,储层性质较好,可作为莺歌海盆地黄流组热储层的重点研究对象。

雄安新区基岩热储钻探施工技术探讨

针对雄安新区基岩热储钻探中风化壳钻进、地层大量漏失封堵及基岩取心的钻探工程难点,通过对所处牛驼镇地热田、容城地热田和高阳地热田地热地质状况、岩性特点的分析,提出了基岩热储地热钻探有效解决方案,包括采用小径探孔施工工法、采用封隔器有效完成水泥浆堵漏、借鉴金刚石满眼取心钻具技术等。

枯竭油气藏储集库储热供暖耦合CO_(2)封存性能分析

利用枯竭油气藏储存热能并封存CO_(2),既可解决太阳能跨季节储热难题,又可扩大可再生能源供暖占比,同时还可提高CO_(2)地质封存的经济性。提出了枯竭油气藏储热供暖耦合CO_(2)封存的新方案,以CO_(2)作为循环工质,夏季吸收太阳热量储存于油气藏背斜构造中,而冬季取出供暖,建立了储释能过程的数学模型,重点分析了枯竭油气藏储能系统热工性能和CO_(2)封存性能。结果表明:(1)新方案储能系统热工性能优异。单井平均采热功率4808.95 kW,每个采暖季可有效利用的平均储热量49859.21 GJ,平均能量储存密度28984.23 kJ/m^(3)。(2)CO_(2)密度对温度敏感的特性降低了热损失,提高了系统效率。枯竭油气藏储能系统平均能量回收效率95.84%,平均热回收效率83.66%。(3)储能加速了CO_(2)溶解。储释能过程中周期性的注入和采出工作气导致气液界面反复膨胀收缩,增加了气水接触面积,提高了传质动力,加速了CO_(2)在水中的溶解。对比储能模式和仅CO_(2)封存模式,CO_(2)溶解比例增量由0.26%上升至2.22%。枯竭油气藏储热供暖耦合CO_(2)封存新方案既有优异的热工性能,又加速了CO_(2)的地质封存,是一种高值化的枯竭油气藏利用和可再生能源供暖方案,具有大规模推广应用的潜力。

多层砂岩油田热采油藏管理提高采收率

概述了美国科恩河油田多层砂岩稠油油藏的特征和开发历史,重点讨论了强化热采油藏管理提高采收率的实践。科恩河油田为水动力圈闭的单斜油藏,蒸汽驱开采后期,碳氧比能谱测井、四维时移热采动态及注采井动态监测结果,孤立单河道砂体识别、追踪,全油田三维地质建模及数值模拟研究为识别剩余油和提高采收率提供了依据。人工智能、蒸汽泡沫驱、双油管完井分层注蒸汽等措施扩大了蒸汽驱波及体积。加密井、水平井钻井及浅部油藏侧钻水平井可大幅度增加可采储量,水平井产量达到相邻直井的3倍以上。为开采油藏下倾部位油水界面附近未动用的“冷油藏”,在下倾部位水层钻产水井泄压,使蒸汽驱得以有效波及到该部位剩余油。

Geology and development of geothermal field in Neogene Guantao Formation in northern Bohai Bay Basin: A case of the Caofeidian geothermal heating project in Tangshan, China

Taking the Gaoshangpu-Liuzan geothermal field in the Nanpu sag of the Bohai Bay Basin as the research object, this paper discusses the geological conditions and potential of the geothermal resources of the Guantao Formation in the study area, and introduces the development practice of geothermal energy heating in Caofeidian. The average buried depth of the Guantao Formation is 1500–2500 m, the lithology is dominated by sandy conglomerate, and the average thickness of thermal reservoir is 120–300 m. The average porosity of thermal reservoir is 28%–35%, the permeability is(600–2000)×10^(-3) μm^(2), and the temperature of thermal reservoir is 70–110 ℃. The formation has total geothermal resources of 13.79×10^(18) J, equivalent to 4.70×10^(8) t of standard coal. Based on a large amount of seismic and drilling data from oil and gas exploration, this study carried out high quality target area selection, simulation of sandstone thermal reservoir, and production and injection in the same layer. The geothermal heating project with distributed production and injection well pattern covering an area of 230×10^(4) m^(2) was completed in the new district of Caofeidian in 2018. The project has been running steadily for two heating seasons, with an average annual saving of 6.06×10^(4) t of standard coal and a reduction of 15.87×10^(4) t of carbon dioxide, achieving good economic and social benefits. This project has proved that the Neogene sandstone geothermal reservoir in eastern China can achieve sustainable large-scale development by using the technology of "balanced production and injection in the same layer". It provides effective reference for the exploration and development of geothermal resource in oil and gas-bearing basins in eastern China.

半圈闭深循环基岩热储开采扰动分析及回灌方案研究

聊城东热田奥陶系热储为山东省基岩热储勘探开发优选区,本文通过分析区内盖储源通等地热特征建立了区域半圈闭深循环裂隙-岩溶基岩热储模型,分析认为其半圈闭深循环赋存特征在提升热水矿化度及微量元素的同时,导致了储层封闭性较强、开采扰动大、难以可持续利用等问题。基于区内观测井多年实测数据建立了开采降深经验公式,采用变异系数法及综合指数法对区内热储开采扰动性进行评价,认为区内基岩热储开采导致了水位下降、水量减少、储层压力、温度及使用寿命降低等不利影响,对水质的扰动性及地面沉降、热污染、环境污染、串层水源污染等开采次生问题较少;结合区内回灌试验,探讨了适宜本地的开采回灌方案:集中开采、梯度利用、同层回灌、采灌均衡,区内基岩热储回灌井宜设置在开采井周边300-500 m范围内,尾水温度以35-40℃为宜。本次研究为区内基岩热储的可持续利用提供了理论依据。

山东鲁西北地区东营组砂岩热储及流体化学特征

鲁西北地热区莫霍面埋藏较浅,具有较高的热流值和富水性较强的含水层,是山东省地热资源开发潜力最大的地区,热储主要为层状热储,地温相对于其它地热区均匀。鲁西北地区东营组主要发育泥岩、细砾岩、砂岩等,沉积厚度受基底起伏和区域构造的控制。研究表明,鲁西北地区东营组砂岩热储表现为自西向东、自南向北变厚趋势;鲁西北地区东营组砂岩热储为细粒砂岩、砂砾岩,总的分布规律是在坳陷、凹陷的中心厚度最大,在盆地边缘最薄,分布不稳定。区内东营组热储补给微弱,为难再生资源,水中阴离子以Cl^(-)为主,阳离子以Na^(+)为主,水化学类型为Cl—Na型。

断层模式地热抽采数值仿真研究

断层模式地热抽采可利用热储层的天然裂隙带作为地热流体的传输通道,是一种地热高效抽采的方式,其抽采过程中热储层的温度、渗透率演化等对地热抽采效率、地热井稳定性与地热抽采寿命等尤为重要。通过理论建模、工程仿真方式对断层模式地热抽采进行了研究,获得了热储层温度和渗透率的演化趋势,为断层模式地热抽采工作提供了理论依据。

张掖市某地热资源勘查井钻探施工技术

为探查张掖市沙漠体育公园地热资源,在公园内施工了一口地热勘探井。该井设计井深2150m,完钻井深2174.03m。本文从该井钻遇地层情况、井身结构、设备选用、钻探施工技术和抽水试验等方面介绍了该井钻完井过程,总结了钻井工作取得的相关成果。该井揭露了新近系白杨河组和白垩系热储层水文地质参数,为园区内地热水资源评价和开采利用提供了可靠地质依据。

轨道交通工程方案对地下温泉资源的影响研究

为减小轨道交通工程建设对地下温泉资源的影响,以市郊铁路重庆中心城区至南川线工程对重庆市东温泉地热资源的影响为研究背景,结合温泉热储构造对线路避让东温泉地热资源的线、站位方案进行了深入分析.结果表明:线路采用路基和高架敷设不影响东温泉地热水资源的补给、径流与排泄;线路采用隧道敷设时不得穿越热储层,可穿越热储盖层,但须完全位于热储盖层范围内,才不会引起东温泉地热水的衰减和流失.研究结果为今后轨道交通穿越温泉地热资源提供了参考和借鉴.

CO_(2)增强页岩气开采及地质埋存的三维数值模拟

将CO_(2)注入页岩储层中,既可以提高气藏天然气采收率,又可以达到CO_(2)地质埋存的目的,是实现减少碳排放的有效途径之一。页岩储层非均质性强,将CO_(2)注入页岩储层后,储层纵向非均质性对于CO_(2)增强CH_(4)开采效果的影响机理研究还存在不足。为此以四川盆地上奥陶统五峰组—下志留统龙马溪组页岩储层为对象,以考虑CO_(2)和CH_(4)竞争吸附的热—流—固多场耦合数值模拟方法为基础,建立了页岩非均质储层CO_(2)增强CH_(4)开采及地质埋存一体化三维数值模型,最后通过CO_(2)驱替CH_(4)室内实验结果验证该数值模拟方法的可靠性。研究结果表明:①当注入井所在层位保持不变时,随着开采井埋深增加,各小层内CH_(4)剩余量呈增加趋势,CO_(2)埋存量表现出逐渐减小的趋势;②当开采井所在层位保持不变时,各小层内CH_(4)的剩余量随注入井埋深的增加而减小,各小层内CO_(2)的埋存量随注采井纵向间距的增加而提高;③增加注采井纵向距离能够提高CH_(4)增产量和CO_(2)埋存量。结论认为,页岩对CO_(2)和CH_(4)有较强的竞争吸附特性,相关过程是一个复杂的热—流—固耦合过程,该基础理论模拟研究对注CO_(2)置换CH_(4)提高页岩气采收率并实现碳封存具有现实意义,且研究认识对今后相关技术的现场应用提供了理论支撑。