Highly reinforce the interface stability using 2-Phenyl-1H-imidazole-1-sulfonate electrolyte additive to enhance the high temperature performance of LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)/graphite batteries

This work develops 2-Phenyl-1H-imidazole-1-sulfonate(PHIS)as a multi-functional electrolyte additive for H2O/HF scavenging and film formation to improve the high temperature performance of LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)/graphite batteries.After 450 cycles at room temperature(25℃),the discharge capacity retentions of batteries with blank and PHIS-containing electrolyte are 56.03%and 94.92%respectively.After 230 cycles at high temperatures(45℃),their values are 75.30%and 88.38%respectively.The enhanced electrochemical performance of the batteries with PHIS-containing electrolyte is supported by the spectroscopic characterization and theoretical calculations.It is demonstrated that this PHIS electrolyte additive can facilitate the construction of the electrode interface films,remove the H2O/HF in the electrolyte,and improve the electrochemical performance of the batteries.This work not only develops a sulfonate-based electrolyte but also can stimulate new ideas of functional additives to improve the battery performance.

CO_(2) High Temperature Corrosion and Its Prevention of Chromia Forming Fe-base Alloys

High temperature corrosion of chromia forming Fe-base alloys by CO_(2) produces not only oxidation but also carburisation.The corrosion kinetics in CO_(2)-rich gas is found to be increased compared with that in air or oxygen.As a result,higher alloy chromium levels are required to achieve protective chromia formation in CO_(2).Corrosion reaction mechanisms in CO_(2) are examined and the internal carburisation of alloys in low carbon activity CO_(2) gases are analysed based on the variation of pO_(2) at the interface of oxide and metal.Carbon penetration through chromia oxide scale has been revealed by atom probe tomography.The strategies to resist CO_(2) corrosion are reviewed by alloying of Si and/or Mn,forming additional diffusion barrier layers,and by adding sulphur to modify oxide grain boundaries to reduce carbon diffusion along the grain boundaries.

13Cr钢高温高压CO_2腐蚀电化学特性研究

通过模拟塔里木油田环境进行腐蚀实验 ,利用电化学方法研究高温高压条件下 13Cr油井管钢的 CO2 腐蚀的电化学特性。结果表明 :在 15 0℃时 ,13Cr钢的自腐蚀电位较低 ,而自腐蚀电流密度很高 ,钝化区间不太明显 ;2 4 ,4 8,72 ,96 h时的交流阻抗图谱均具有三个时间常数 ,并且随腐蚀时间的延长 ,腐蚀孔内溶液的粘度不断加大 ,使电荷传递和扩散传质的阻力越来越大 ,Warburg阻抗逐渐增加 ,整个电极表面金属 /钝化膜与溶液之间的双电层电容

Trends and advances in the development of coal fly ash-based materials for application in hydrogen-rich gas production:A review

Coal fly ash(FA),a valuable industrial solid residue generated from coal combustion,is composed of various metal oxides and has a high thermal stability.Given that the coal-based energy will continue to account for a significant portion of global electricity generation in the coming years,the lack of effective management strategies exacerbates the threat of FA wastes to the surrounding environment and human health.For a sustainable development,green and renewable hydrogen economy and CO_(2)capture efforts provide appealing opportunities to valorize FA as catalysts and/or sorbents due to their appealing physicochemical properties.Hydrogen applications along with carbon neutrality are potential strategies to mitigate climate change crisis,but high processing costs(catalysts/sorbents)are challenging to realize this purpose.In this context,the utilization of FA not only enhances industrial competitiveness(by reducing manufacturing costs),but also provides ecologically friendly approaches to minimizing this solid waste.This state-of-the-art review highlights a wide-ranging outlook on the valorization of FA as catalysts and sorbents for hydrogen-rich gas production via conventional/intensified processes(CO_(2)/H_(2)O reforming,ammonia decomposition,hydride hydrolysis).The fundamental physicochemical characterizations and hazards/utilization of FA,which significantly affect the FA's utilization in various fields,are first introduced.The influence of several factors(like FA types and catalysis/sorption operation conditions)on the activity performance of FA-based materials is then discussed in detail.This critical review aims to open the window to further innovative ideas regarding the application of different FA residues in other catalytic and sorption processes.

高温环境下模拟CO_(2)驱采出液中304不锈钢的腐蚀行为

现阶段随着CO_(2)驱油技术的普遍使用,采出液中CO_(2)的含量不断上升,使得采出系统中金属管道的腐蚀程度逐渐增大。为了掌握304不锈钢在高温环境下CO_(2)驱采出液中的腐蚀行为,室内配制了模拟CO_(2)驱采出液,测试了304不锈钢在高温环境下不同含量CO_(2)、不同腐蚀时间下的金属腐蚀速率,并对不同腐蚀时间下金属表面的微观形貌和腐蚀产物组成进行了表征。结果表明,随着CO_(2)含量和腐蚀时间的不断上升,金属的腐蚀速率上升;随着腐蚀时间的上升,金属表面的腐蚀产物逐渐增加,发生了局部区域析氢腐蚀过程;腐蚀产物膜主要由Fe_(2)O_(3)、Cr_(2)O_(3)和FeCO_(3)组成。

古龙页岩油高温高压注CO_(2)驱动用效果

为了明确古龙页岩油高温高压注CO_(2)驱动用效果,首先根据页岩压汞和氮气吸附实验结果,给出页岩T2值与孔喉半径转换系数,根据饱和页岩的T2谱特征,将页岩孔隙分为小孔、中大孔和页理缝;然后通过计算页岩油采出程度,考察吞吐周期、闷井时间、裂缝对吞吐驱油效果的影响,并且分析吞吐后岩心孔隙结构的改变程度;最后对比页岩油CO_(2)吞吐和CO_(2)驱替的驱油效果,并给出最优的驱油方式。结果表明:吞吐动用幅度最大的是中大孔和页理缝中的页岩油,小孔中的页岩油采出程度最低,增加闷井时间,页岩油采出程度仅提高0.81百分点,压裂可以使小孔中的页岩油采出程度提高11.33百分点,使小孔中的页岩油得到有效动用;吞吐比驱替可以使页岩油采出程度提高30.98百分点,并且可以动用干岩样中的页岩油,效果优于驱替;驱吞结合驱油方式比只进行吞吐可以使页岩油采出程度提高12.88百分点以上,并且可以大幅度提高小孔中页岩油的采出程度;吞吐后岩心孔隙结构发生明显变化,页岩砂砾含量不同是导致页岩吞吐前后孔隙结构变化差异大的重要原因。研究成果可为古龙页岩油矿场实践提供重要的基础参数。

液态CO_(2)-水蒸气循环冲击煤体增透及瓦斯抽采效果模拟

【目的】为解决液态CO_(2)煤层增透技术应用时煤层内部孔隙水受冷凝结为冰阻塞瓦斯运移通道这一问题,提出液态CO_(2)-高温水蒸气冷热循环冲击煤体增透技术。【方法】利用低场核磁共振仪、煤岩渗透率自动测试仪、接触角测试仪和三维CT扫描仪分析液态CO_(2)-高温水蒸气冷热循环冲击煤体渗透率演化规律。【结果和结论】结果表明:(1)液态CO_(2)-高温水蒸气冷热循环冲击煤体T2曲线面积随冷热循环冲击次数增加而增加。(2)煤体渗透率增量与液态CO_(2)-高温水蒸气冷热循环冲击次数指数相关,循环冲击次数增加,煤体渗透性和润湿性均增强。(3)液态CO_(2)-高温水蒸气冷热循环冲击次数达到12次时,渗流孔体积比例增加23.57%,渗透率增加0.009 3×10^(-3)μm^(2),接触角减小39.45°。(4)煤体渗透性与渗流孔体积比例、接触角相关,渗流孔体积比例与煤体渗透率正相关,接触角与煤体渗透率指数相关。基于实验研究结果,利用COMSOL软件数值模拟低温液态CO_(2)-高温水蒸气冷热循环冲击煤层工程现场应用。依据试验结果确定恢复到室温25℃时的有效作用半径为0.719 8 m,以此数据模拟矿井煤层瓦斯抽采,结果显示煤层温度与瓦斯抽采效率成正比。试验及模拟结果揭示了液态CO_(2)-高温水蒸气冷热循环冲击煤体增透技术的现场钻孔布置及瓦斯抽采运移规律,为该技术下一步现场应用提供参考。

CO_(2)激光作用玻璃管的热效应

激光对单一玻璃管进行热熔封接的过程中,加工质量与玻璃管内的温度分布有密不可分的联系。在考虑表面热辐射、材料内部热传导和空气热对流的情况下,使用COMSOL Multiphysics有限元仿真软件对CO_(2)激光作用高硼硅酸盐玻璃管的温度场进行模拟仿真,分析了温度场分布随时间的变化规律,比较了激光功率、激光光斑半径和旋转速度对玻璃管温度分布的影响。仿真结果表明,激光功率越大,光斑半径越小,玻璃管旋转速度越低,玻璃管温度越高。根据仿真结果,选择合适的加工参数能够达到高硼硅酸盐玻璃管进行激光加工的工艺要求,此项研究为后续玻璃管激光热熔封接的工艺参数选择提供了重要理论依据。

CO_(2)熔盐捕集与电解单质碳过程调节

CO_(2)熔盐捕集与电解制备单质碳材料由于具有良好的选择性,被认为是一种极有前景的碳捕集利用与封存(CCUS)技术.然而,目前关于CO_(2)在熔盐体系下的动力学捕集机理研究尚显不足,并且电解过程中电耗较高,生产成本偏大,因此CO_(2)高效捕集与低电耗电解是关键.本文计算了CO_(2)熔盐捕集转换碳酸盐热力学和碳酸盐电解理论电压与电耗,通过在线气体质谱仪、碳硫分析仪等研究了典型CaCl_(2)基熔盐中CO_(2)捕集动力学规律.通过恒电压电解、扫描电子显微镜(SEM)、拉曼光谱(Raman)等,在典型三元Na_(2)CO_(3)–K_(2)CO_(3)–Li_(2)CO_(3)熔盐和三元CaCl_(2)–NaCl–CaO熔盐中考察了温度和电压对CO_(2)电解制备单质碳材料电解过程、电耗和产物结构的影响规律.结果表明,相比于碱金属氧化物,CaO是较佳的CO_(2)捕集剂,捕集转化获得的CaCO_(3)具有最低的理论分解电压和电耗;在典型CaCl_(2)–3.0%CaO(质量分数)熔盐中,CO_(2)的捕集容量为0.016 gCO_(2)·g^(−1);相比于Na_(2)CO_(3)–K_(2)CO_(3)–Li_(2)CO_(3)熔盐,CaCl_(2)–NaCl–CaO熔盐捕集CO_(2)具有更低的电解电压和电耗,750℃和1.5 V最佳条件下,电解单质碳材料电流效率达到95.3%,电解电耗最低仅为14.1 kW·h·kg^(−1).本研究不仅为寻找性能优异、价格低廉、环境友好的CO_(2)熔盐捕集材料提供了基础,也为实际电解优化工艺指标提供理论依据.

顺北16X井二次侧钻超高温钻井液技术

顺北16X井是西北油田分公司部署在顺北16号断裂带的一口四开制斜井探井,完钻层位为奥陶系鹰山组,地质预测顺北16X井井底温度为168.9℃/6680 m。该井钻至设计井深6777 m后加深钻进,加深钻进使用ENVIROTHERM NT高性能水基钻井液,卡钻回填后采用油基钻井液进行第一次侧钻,测试未见产,再次回填采用抗高温钻井液体系。第二次侧钻实钻完钻井深7533 m(斜)/7417 m(垂),实测井底温度达209℃,钻井液密度最高为1.75 g/cm^(3),属极高温超高压地层。通过采用抗超高温钻井液体系,保障了超高温下钻井液优良的流变性和沉降稳定性,同时抗CO_(2)、盐水污染能力优良。该井第二次侧钻顺利完钻,钻井液性能稳定,井下正常。

一种新型材料固井水泥石的抗高CO_(2)分压腐蚀性能评价

井下高温、高CO_(2)含量条件使水泥环长效封固周期寿命缩短,水泥环完整性保障难度增大,由于在较高的压力环境下CO_(2)呈现低黏度、高扩散性和高压缩性的超临界特性,会加剧水泥石的腐蚀。本文与常见的6种防腐材料进行防腐性能对比测试,研发了可用于井下高温、高CO_(2)分压环境中的一种新型防腐材料。室内实验结果表明,新型火山灰混合材料由于二次水化反应消耗Ca(OH)_(2)提高水泥石长期强度,且电镜下微观观察分析,新型火山灰混合材料水泥石渗透率更低,CO_(2)环境中养护30 d后水泥石表面仍存在CaSiO_(3),表明侵蚀仍在表层进行。新型火山灰混合材料的水泥石具有30 d腐蚀深度1.17 mm、抗压强度衰退率2.6%、渗透率变化率2.1%更好的抗CO_(2)腐蚀能力,且具有良好的综合施工性能。

CO_(2)压裂页岩油产出水中腐蚀性细菌特征及菌群多样性

采用水力压裂的页岩气田整个生产周期内的产出水普遍含大量硫酸盐还原菌(sulfate-reducing bacteria,SRB)、腐生菌(total general bacteria,TGB)和铁细菌(iron bacteria,IB)腐蚀性细菌。采用CO_(2)与水力压裂交替的CO_(2)压裂技术是现阶段页岩油开发最有前景的技术之一,页岩油产出水中SRB、TGB和IB细菌特征及菌群的多样性研究鲜有报道。采用绝迹稀释法和高通量测序技术研究了某页岩油田配置压裂液的河水、压裂液、投产0.67~76 d产出水中SRB、TGB和IB腐蚀性细菌变化规律、腐蚀性细菌对CO_(2)和井下高温环境的适应性,及细菌群落多样性的变化特征。结果表明:页岩油环境的SRB、TGB及IB细菌主要在压裂及生产初期存在(10~3~10~7个/mL),在投产47 d后,细菌含量明显降低。SRB、TGB及IB对压裂期间注入的CO_(2)的敏感性不同,CO_(2)抑制SRB、TGB的生长,促进IB的生长。在150℃,2 MPa环境中暴露10 h后,SRB、TGB和IB细菌的死亡率达99.9%。投产1 d内的产出水中的细菌主要为压裂过程引入的外源细菌。随投产时间延长,压裂过程引入的外源细菌对地层微生物菌群的影响有所降低,且产出水的细菌多样性显著增加。投产0.67 d和1 d产出水的Shannon指数分别为2.4和2.2;投产47 d和76 d后,Shannon指数增加至7.7和7.4。细菌群落结构随投产时间发生了显著变化,压裂液及投产后0.67~76 d的产出水中变形菌门(20%~97%)为优势类群;投产47 d及76 d的产出水中的厚壁菌门、酸杆菌门、放线菌门、拟杆菌门、绿弯菌门的相对丰度较高。页岩油井产出水中还存在潜在石油类降解菌芽孢杆菌纲、假单胞菌属、嗜冷杆菌属、海杆菌属等。

Regulation of Calvin-Benson cycle enzymes under high temperature stress

The Calvin Benson cycle(CBC)consists of three critical processes,including fixation of CO_(2) by Rubisco,reduction of 3-phosphoglycerate(3PGA)to triose phosphate(triose-P)with NADPH and ATP generated by the light reactions,and regeneration of ribulose 1,5-bisphosphate(RuBP)from triose-P.The activ-ities of photosynthesis-related proteins,mainly from the CBC,were found more significantly affected and regulated in plants challenged with high temperature stress,incuding Rubisco,Rubisco activase(RCA) and the enzymes involved in RuBP regeneration,such as sedoheptulose-1,7-bisphosphatase(SBPase).Over the past years,the regulatory mechanism of CBC,especially for redox-regulation,has attracted major interest,because balancing flux at the various enzymatic reactions and maintaining metabolite levels in a range are of critical importance for the optimal operation of CBC under high temperature stress,providing insights into the genetic manipulation of photosynthesis.Here,we summarize recent progress regarding the identification of various layers of regulation point to the key enzymes of CBC for acclimation to environmental temperature changes along with open questions are also discussed.

超高温高密度防腐防窜水泥浆

南海西部油田高温高压储层是南海万亿大气田的主力产区,乐东某区块目的层温度达210℃、压力系数为2.20~2.29、压力窗口仅为0.04~0.05,且存在CO_(2)等腐蚀气体,勘探开发难度极大,其中超高温高密度防腐防窜水泥浆体系的研发是制约气田开发的关键技术之一。针对上述复杂井况,以还原铁粉、锰矿粉、不同目数硅粉等进行颗粒级配作为固相材料,以低活性MgO为晶格膨胀剂防止水泥环回缩,以特种胶乳为防腐、防气窜材料,以有机、无机插层聚合物为高温悬浮稳定剂等构建了耐温达220℃、防环空气窜、防CO_(2)腐蚀的超高密度2.40~2.60 g/cm^(3)水泥浆体系。室内评价结果表明,在CO_(2)分压为50%、养护压力为100 MPa、养护温度为180~220℃的腐蚀条件下,腐蚀180 d后,抗压强度增加明显,是腐蚀前的3倍左右,渗透率略增加(<0.01 mD),水化产物由腐蚀前的硬硅钙石C_(6)S_(6)H转变为CaCO_(3)、SiO_(2)。220℃养护24 h后的抗压强度大于25 MPa,SPN值不大于0.5,稠化时间易调节,下灰时间不大于40 s,水泥石上下密度差小于0.01,满足现场施工要求。

莺琼盆地高温高含CO_(2)环境水泥石腐蚀规律及机理研究

莺琼盆地部分井高压井段地层的CO_(2)含量高,针对高温高含CO_(2)条件下,水泥环强度衰退和CO_(2)腐蚀导致的水泥石强度降低规律和机理不清楚等问题。采用实验方法分析了腐蚀时间、温度、压力及CO_(2)分压等因素对水泥石的腐蚀规律的影响并分析了腐蚀机理。结果表明:随着腐蚀时间、温度、CO_(2)分压、地层压力的增加,水泥石的腐蚀深度增加,同时抗压强度降低,产生这种现象主要原因是CO_(2)溶于水后会腐蚀水泥石中的雪硅钙石和硬硅钙石,生成在潮湿的CO_(2)环境下易溶的碳酸氢钙,使得水泥石孔隙度和渗透率增大,强度降低。该研究为后续高温高压井固井水泥浆体系选择及改进提供了依据。

重组干扰素α-2b联合CO_(2)激光气化治疗宫颈低级别上皮内病变伴HR-HPV感染患者的临床效果及对HPV转阴率的影响

目的分析重组干扰素α-2b联合CO_(2)激光气化治疗宫颈低级别上皮内病变伴高危型人乳头瘤病毒(HR-HPV)感染的临床效果。方法选取宫颈低级别上皮内病变伴HR-HPV感染患者80例,采用随机数表法分为对照组及研究组,每组40例。对照组采用重组干扰素α-2b治疗,研究组采用重组干扰素α-2b联合CO_(2)激光气化治疗。比较两组患者的治疗效果。结果研究组治疗总有效率为90.00%,高于对照组的72.50%(P<0.05)。研究组治疗3、6个月的HPV转阴率均高于对照组(P<0.05)。两组不良反应总发生率比较,差异无统计学意义(P>0.05)。结论采用重组干扰素α-2b联合CO_(2)激光气化治疗宫颈低级别上皮内病变伴HR-HPV感染患者,可提高疗效及HPV转阴率。

High‑Temperature Electrochemical Devices Based on Dense Ceramic Membranes for CO_(2) Conversion and Utilization

The adverse effects of global warming and climate change have driven the exploration of feasible routes for CO_(2) capture,storage,conversion and utilization.The processes related to CO_(2) conversion in high-temperature electrochemical devices(HTEDs)using dense ceramic membranes are particularly appealing due to the simultaneous realization of highly efficient CO_(2) conversion and value-added chemical production as well as the generation of electricity and storage of renewable energy in some cases.Currently,most studies are focused on the two processes,CO_(2) electrolysis and H2O/CO_(2) co-electrolysis in oxygen-conducting solid oxide electrolysis cell(O-SOEC)reactors.Less attention has been paid to other meaningful CO_(2)-conversion-related processes in HTEDs and systematic summary and analysis are currently not available.This review will fill the gap and classify the CO_(2)-conversion-related processes in HTEDs reported in recent years into four types accord-ing to the related reactions,including assisted CO_(2) reduction to CO,H2O and CO_(2) co-conversion,dry reforming of methane and CO_(2) hydrogenation.Firstly,an overview of the fundamentals of HTED processes is presented,and then the related mechanism and research progress of each type of reactions in different HTEDs are elucidated and concluded accordingly.The remaining major technical issues are also briefly introduced.Lastly,the main challenges and feasible solutions as well as the future prospects of HTEDs for CO_(2)-conversion-related processes are also discussed in this review.

液态二氧化碳防火机理及远距离输送技术

浅埋极近距离煤层群自然发火是榆树坡煤矿大部分煤层的典型特征,煤田火区治理困难。通过热分析试验,探究液态CO_(2)的使用对高温煤体降温规律及自燃特性的影响,观察到松散煤体的孔隙率对CO_(2)的降温效果有显著影响;CO_(2)体积分数的增加能够影响煤氧化的表观活化能,为解释CO_(2)抑制煤自燃的作用提供了理论依据。利用Fluent数值模拟软件,计算液态CO_(2)注入采空区的扩散半径,得出液态CO_(2)对采空区遗煤的有效惰化半径。

斯洛文尼亚典型岩溶区土壤剖面CO_(2)冬季动态变化特征

土壤CO_(2)是岩溶作用的重要驱动力,也是陆地生态系统碳循环与岩溶碳循环的纽带。选择斯洛文尼亚典型岩溶区草地生态系统土壤剖面,开展大气与土壤CO_(2)、土壤水分与土壤温度等指标高分辨率监测,分析不同指标动态变化、分层效应及相互关系。结果表明,土壤温度、水分和CO_(2)含量变幅分别为3.8—12.9℃、26.9%—34.7%和(682—6760)×10^(-6)。土壤温度变化趋势与气温变化一致,上部土壤层随气温出现昼夜变化,响应敏感,下部土壤层则表现为多日变化;土壤水分变化主要受降雨控制,对降雨过程响应及时,不同深度分层效应显著,上部与下部含量较高,暗示草地根系有利于土壤水分保持,土岩界面的存在可能是下部保持较高水分的原因。土壤CO_(2)含量总体上受土温控制,随着深度增加逐渐升高。降雨过程中,不同深度土壤CO_(2)含量均有不同程度且较快速的升降现象,暗示雨水入渗土壤层后产生的活塞效应和随后的向下迁移是导致土壤CO_(2)含量陡升陡降的主要原因。从降雨过程大气CO_(2)含量有较大幅度降低的现象看,说明来自大气与土壤CO_(2)均参与了下伏碳酸盐岩的溶蚀过程,揭示在湿冷的地中海气候岩溶区,受生态系统控制的CO_(2)可为下伏碳酸盐岩溶蚀提供驱动力,其产生的碳汇可能是整个生态系统碳汇的重要组成部分。

高温高盐油藏CO_(2)混相调节剂效果因素室内评价

针对国内高温高盐油藏陆相沉积气驱混相压力高、不能实现混相驱的问题,开展了CO_(2)驱混相压力调节剂的研究,如增加CO_(2)溶解度、提升CO_(2)萃取轻烃能力、降低原油黏度、降低气液表面张力。通过室内实验,量化了17种调节剂4个方面混相因素,明确了调节剂对CO_(2)驱混相压力的影响。研究表明,对开展CO_(2)驱的某个油藏来说,不同调节剂混相因素的效果差异显著:乙二醇丁醚以原油降黏和增加CO_(2)萃取的能力为主,正丁醇增加CO_(2)的萃取能力最强,石油醚类降低原油黏度和油气表面张力的效果显著,苯类主要是促进CO_(2)在原油中溶解,柠檬酸酯类增加CO_(2)在原油中溶解度和提高CO_(2)萃取抽提烃类的能力。研究的认识和成果有利于提高高温高盐油藏CO_(2)驱的采出程度,同时为混相调节剂的改进、研发新型混相调节剂提供理论和实验数据支撑,进而扩大高温高盐油藏混相驱的适用范围。