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Porous metal oxides in the role of electrochemical CO_(2) reduction reaction 被引量:1
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作者 Ziqi Zhang Jinyun Xu +9 位作者 Yu Zhang Liping Zhao Ming Li Guoqiang Zhong Di Zhao Minjing Li Xudong Hu Wenju Zhu Chunming Zheng Xiaohong Sun 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第1期373-398,I0009,共27页
The global energy-related CO_(2) emissions have rapidly increased as the world economy heavily relied on fossil fuels.This paper explores the pressing challenge of CO_(2) emissions and highlights the role of porous me... The global energy-related CO_(2) emissions have rapidly increased as the world economy heavily relied on fossil fuels.This paper explores the pressing challenge of CO_(2) emissions and highlights the role of porous metal oxide materials in the electrocatalytic reduction of CO_(2)(CO_(2)RR).The focus is on the development of robust and selective catalysts,particularly metal and metal-oxide-based materials.Porous metal oxides offer high surface area,enhancing the accessibility to active sites and improving reaction kinetics.The tunability of these materials allows for tailored catalytic behavior,targeting optimized reaction mechanisms for CO_(2)RR.The work also discusses the various synthesis strategies and identifies key structural and compositional features,addressing challenges like high overpotential,poor selectivity,and low stability.Based on these insights,we suggest avenues for future research on porous metal oxide materials for electrochemical CO_(2) reduction. 展开更多
关键词 co_(2)reduction Carbon dioxide transformation Porous metal oxides ELECTROCATALYSIS
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Hydration transformation behaviors of CO_(2) and excellent anti-inflammatory activity on RAW 264.7 cell
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作者 Wanping Zhang Yiting Gu +3 位作者 Xuyan Li Zhiyong Sun Chunhong Wei Dongmei Zhang 《日用化学工业(中英文)》 CAS 北大核心 2024年第11期1289-1297,共9页
Skin care products with carbonic acid(H_(2)CO_(3))have gained extensive attention worldwide.However,the conversion of CO_(2) to H_(2)CO_(3) is not stable,and the mechanism of the effect of H_(2)CO_(3) on skin care has... Skin care products with carbonic acid(H_(2)CO_(3))have gained extensive attention worldwide.However,the conversion of CO_(2) to H_(2)CO_(3) is not stable,and the mechanism of the effect of H_(2)CO_(3) on skin care has not been clearly proved.The hydration-dissolution behaviors of CO_(2) were investigated under different temperature,pH,and pressure conditions.Moreover,based on the phenomenon of CO_(2) hydration transformation,the inflammatory effect of CO_(2) hydrate on macrophages(RAW 264.7)was investigated.The result shows that the increase in temperature weakened the hydration of CO_(2),and the increase in pH and pressure both promoted the water-phase transformation of CO_(2).When pH<6,CO_(2) reacts with water to generate H_(2)CO_(3).When pH was between 6-7,the prompt solution was a mixture of H_(2)CO_(3) and HCO_(3)^(-).When the pH was between 7-9,they mainly generated HCO_(3)^(-).And when pH>9,CO_(2) solubility mainly converts to CO_(3)^(2-).Besides,CO_(2) can inhibit the secretion of inflammatory factors by RAW 264.7 cells by inhibiting the phosphorylation of the p38 protein.CO_(2) hydrate inhibited the expression of pro-inflammatory factors IL-6,TNF-α,and up-regulated the expression of anti-inflammatory factor IL-10.Furthermore,the anti-inflammatory molecular mechanism of CO_(2) hydration inhibited the MAPK signaling pathway by inhibiting the phosphorylation of p38.The hydration-dissolution behavior of CO_(2) was investigated.This work revealed the anti-inflammatory bioeffect of CO_(2) hydrate,providing a theoretical basis and application support for CO_(2) skin care products. 展开更多
关键词 co_(2) hydration transformation anti-inflammatory effect skin care
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Unraveling the atomic interdiffusion mechanism of NiFe_(2_)O_(4) oxygen carriers during chemical looping CO_(2) conversion
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作者 Da Song Yan Lin +8 位作者 Shiwen Fang Yang Li Kun Zhao Xinfei Chen Zhen Huang Fang He Zengli Zhao Hongyu Huang Fanxing Li 《Carbon Energy》 SCIE EI CAS CSCD 2024年第8期105-121,共17页
By employing metal oxides as oxygen carriers,chemical looping demonstrates its effectiveness in transferring oxygen between reduction and oxidation environments to partially oxidize fuels into syngas and convert CO_(2... By employing metal oxides as oxygen carriers,chemical looping demonstrates its effectiveness in transferring oxygen between reduction and oxidation environments to partially oxidize fuels into syngas and convert CO_(2) into CO.Generally,NiFe_(2_)O_(4) oxygen carriers have demonstrated remarkable efficiency in chemical looping CO_(2) conversion.Nevertheless,the intricate process of atomic migration and evolution within the internal structure of bimetallic oxygen carriers during continuous high‐temperature redox cycling remains unclear.Consequently,the lack of a fundamental understanding of the complex ionic migration and oxygen transfer associated with energy conversion processes hampers the design of high‐performance oxygen carriers.Thus,in this study,we employed in situ characterization techniques and theoretical calculations to investigate the ion migration behavior and structural evolution in the bulk of NiFe_(2_)O_(4) oxygen carriers during H_(2) reduction and CO_(2)/lab air oxidation cycles.We discovered that during the H_(2) reduction step,lattice oxygen rapidly migrates to vacancy layers to replenish consumed active oxygen species,while Ni leaches from the material and migrates to the surface.During the CO_(2) splitting step,Ni migrates toward the core of the bimetallic oxygen carrier,forming Fe–Ni alloys.During the air oxidation step,Fe–Ni migrates outward,creating a hollow structure owing to the Kirkendall effect triggered by the swift transfer of lattice oxygen.The metal atom migration paths depend on the oxygen transfer rates.These discoveries highlight the significance of regulating the release–recovery rate of lattice oxygen to uphold the structures and reactivity of oxygen carriers.This work offers a comprehensive understanding of the oxidation/reduction‐driven atomic interdiffusion behavior of bimetallic oxygen carriers. 展开更多
关键词 chemical looping co_(2)splitting density functional theory in situ characterization ionic migration
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CO_(2)capture costs of chemical looping combustion of biomass:A comparison of natural and synthetic oxygen carrier
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作者 Benjamin Fleiß Juraj Priscak +3 位作者 Martin Hammerschmid Josef Fuchs Stefan Müller Hermann Hofbauer 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第5期296-310,共15页
Chemical looping combustion has the potential to be an efficient and low-cost technology capable of contributing to the reduction of the atmospheric concentration of CO_(2) in order to reach the 1.5/2°C goal and ... Chemical looping combustion has the potential to be an efficient and low-cost technology capable of contributing to the reduction of the atmospheric concentration of CO_(2) in order to reach the 1.5/2°C goal and mitigate climate change.In this process,a metal oxide is used as oxygen carrier in a dual fluidized bed to generate clean CO_(2) via combustion of biomass.Most commonly,natural ores or synthetic materials are used as oxygen carrier whereas both must meet special requirements for the conversion of solid fuels.Synthetic oxygen carriers are characterized by higher reactivity at the expense of higher costs versus the lower-cost natural ores.To determine the viability of both possibilities,a techno-economic comparison of a synthetic material based on manganese,iron,and copper to the natural ore ilmenite was conducted.The synthetic oxygen carrier was characterized and tested in a pilot plant,where high combustion efficiencies up to 98.4%and carbon capture rates up to 98.5%were reached.The techno-economic assessment resulted in CO_(2) capture costs of 75 and 40€/tCO_(2) for the synthetic and natural ore route respectively,whereas a sensitivity analysis showed the high impact of production costs and attrition rates of the synthetic material.The synthetic oxygen carrier could break even with the natural ore in case of lower production costs and attrition rates,which could be reached by adapting the production process and recycling material.By comparison to state-of-the-art technologies,it is demonstrated that both routes are viable and the capture cost of CO_(2) could be reduced by implementing the chemical looping combustion technology. 展开更多
关键词 chemical looping combustion BECCS Techno-economic assessment co_(2)capture costs Oxygen carrier development Synthetic materials ILMENITE
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Cu/TiO_(2) Photocatalysts for CO_(2) Reduction: Structure and Evolution of the Cocatalyst Active Form 被引量:2
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作者 Andrey A.Saraev Anna Yu.Kurenkova +3 位作者 Denis D.Mishchenko Alexandr L.Trigub Evgeniy Yu.Gerasimov Ekaterina A.Kozlova 《Transactions of Tianjin University》 EI CAS 2024年第2期140-151,共12页
Extensive work on a Cu-modified TiO_(2) photocatalyst for CO_(2) reduction under visible light irradiation was conducted. The structure of the copper cocatalyst was established using UV-vis diff use refl ectance spect... Extensive work on a Cu-modified TiO_(2) photocatalyst for CO_(2) reduction under visible light irradiation was conducted. The structure of the copper cocatalyst was established using UV-vis diff use refl ectance spectroscopy, high-resolution transmis- sion electron microscopy, X-ray absorption spectroscopy, and X-ray photoelectron spectroscopy. It was found that copper exists in different states (Cu 0 , Cu^(+) , and Cu^(2+) ), the content of which depends on the TiO_(2) calcination temperature and copper loading. The optimum composition of the cocatalyst has a photocatalyst based on TiO_(2) calcined at 700℃ and modified with 5 wt% copper, the activity of which is 22 μmol/(h·g cat ) (409 nm). Analysis of the photocatalysts after the photocatalytic reaction disclosed that the copper metal on the surface of the calcined TiO_(2) was gradually converted into Cu_(2) O during the photocatalytic reaction. Meanwhile, the metallic copper on the surface of the noncalcined TiO_(2) did not undergo any trans- formation during the reaction. 展开更多
关键词 PHOTOCATALYSIS Photocatalytic co_(2)conversion Visible light Titanium dioxide copper copper oxides Methane formation Photocatalyst transformation
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Numerical Simulation of Thermo-Hydro-Mechanical-Chemical Response Caused by CO_(2)Injection into Saline Geological Formations:A Case Study from the Ordos Project,China 被引量:1
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作者 FAN Zejin XU Tianfu +2 位作者 YANG Bo ZHANG Hui ZHU Huixing 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2023年第3期889-910,共22页
Thermo-hydro-mechanical-chemical(THMC)interactions are prevalent during CO_(2)geological sequestration(CGS).In this study,a sequential coupling THMC numerical simulation program was constructed,which can be used to ex... Thermo-hydro-mechanical-chemical(THMC)interactions are prevalent during CO_(2)geological sequestration(CGS).In this study,a sequential coupling THMC numerical simulation program was constructed,which can be used to explore the following issues of CGS:fluid and heat flow,solute transport;stresses,displacements and rock failures related to geo-mechanical effects;equilibrium and kinetic chemical reactions;chemical damage to mechanical properties of the rock.Then,the coupling program was applied to the Ordos CGS Project to study the formation response under the multifield interaction caused by CO_(2)injection.The simulation results show that the mechanical process dominates the short CO_(2)injection period.Specifically,the formation’s permeability near the injection well increases by 43%,due to the reduction of effective stress,which significantly promotes the lateral migration of CO_(2).When the injection rate exceeds 0.15 million tons per year,the cohesion of the reservoir rock is not enough to resist the shear force inside the rock and rock failure may occur.During the subsequent long-term sequestration period(200 years),the influence of mineral reactions gradually increases.Due to calcite dissolution,the shear modulus of caprock is predicted to decrease by 7.6%,which will to some extent increase the risk of rock failure. 展开更多
关键词 co_(2) geological sequestration THMC coupling numerical simulation chemical damage
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Surface modification of Cu_(2)O with stabilized Cu^(+) for highly efficient and stable CO_(2) electroreduction to C_(2+) chemicals
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作者 Ziyu Zhou Shuyu Liang +4 位作者 Jiewen Xiao Tianyu Zhang Min Li Wenfu Xie Qiang Wang 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第9期277-285,共9页
Copper(Cu)-based materials are known as the most attractive catalysts for electrochemical carbon dioxide reduction reaction(CO_(2)RR),especially the Cu^(+) species(e.g.,Cu_(2)O),which show excellent capability for cat... Copper(Cu)-based materials are known as the most attractive catalysts for electrochemical carbon dioxide reduction reaction(CO_(2)RR),especially the Cu^(+) species(e.g.,Cu_(2)O),which show excellent capability for catalyzing CO_(2) to C_(2+) chemicals because of their unique electronic structure.However,the active Cu^(+) species are prone to be reduced to metallic Cu under an electroreduction environment,thus resulting in fast deactivation and poor selectivity.Here,we developed an advanced surface modification strategy to maintain the active Cu^(+) species via assembling a protective layer of metal-organic framework(copper benzenetricarboxylate,CuBTC) on the surface of Cu_(2)O octahedron(Cu_(2)O@CuBTC).It's encouraging to see that the Cu_(2)O@CuBTC heterostructure outperforms the bare Cu_(2)O octahedron in catalyzing CO_(2) to C_(2+) chemicals and dramatically enhances the ratio of C_(2)H_(4)/CH_(4) products.A systematic study reveals that the introduced CuBTC shell plays a critical role in maintaining the active Cu^(+) species in Cu_(2)O@CuBTC heterostructure under reductive conditions.This work offers a practical strategy for improving the catalytic performance of CO_(2)RR over copper oxides and also establishes a route to maintain the state of valence-sensitive catalysts. 展开更多
关键词 co_(2)RR copper Oxide Metal-organic Framework core-shell Structure C_(2+)chemicals
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Unveiling the parasitic-reaction-driven surface reconstruction in Ni-rich cathode and the electrochemical role of Li_(2)CO_(3)
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作者 Jiyu Cai Zhenzhen Yang +18 位作者 Xinwei Zhou Bingning Wang Ana Suzana Jianming Bai Chen Liao Yuzi Liu Yanbin Chen Shunlin Song Xuequan Zhang Li Wang Xiangming He Xiangbo Meng Niloofar Karami Baasit Ali Shaik Sulaiman Natasha A.Chernova Shailesh Upreti Brad Prevel Feng Wang Zonghai Chen 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第10期126-136,I0006,共12页
Nickel-rich transition-metal oxides are widely regarded as promising cathode materials for high-energydensity lithium-ion batteries for emerging electric vehicles. However, achieving high energy density in Ni-rich cat... Nickel-rich transition-metal oxides are widely regarded as promising cathode materials for high-energydensity lithium-ion batteries for emerging electric vehicles. However, achieving high energy density in Ni-rich cathodes is accompanied by substantial safety and cycle-life obstacles. The major issues of Ni-rich cathodes at high working potentials are originated from the unstable cathode-electrolyte interface, while the underlying mechanism of parasitic reactions towards surface reconstructions of cathode materials is not well understood. In this work, we controlled the Li_(2)CO_(3) impurity content on LiNi_(0.83)Mn_(0.1)Co_(0.07)O_(2) cathodes using air, tank-air, and O_(2) synthesis environments. Home-built high-precision leakage current and on-line electrochemical mass spectroscopy experiments verify that Li_(2)CO_(3) impurity is a significant promoter of parasitic reactions on Ni-rich cathodes. The rate of parasitic reactions is strongly correlated to Li_(2)CO_(3) content and severe performance deterioration of Ni83 cathodes.The post-mortem characterizations via high-resolution transition electron microscope and X-ray photoelectron spectroscopy depth profiles reveal that parasitic reactions promote more Ni reduction and O deficiency and even rock-salt phase transformation at the surface of cathode materials. Our observation suggests that surface reconstructions have a strong affiliation to parasitic reactions that create chemically acidic environment to etch away the lattice oxygen and offer the electrical charge to reduce the valence state of transition metal. Thus, this study advances our understanding on surface reconstructions of Nirich cathodes and prepares us for searching for rational strategies. 展开更多
关键词 Ni-rich cathodes Surface reconstructions Phase transformation Parasitic reactions Li_(2)co_(3)
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黄铁矿在CO_(2)气氛下非等温氧化转化及动力学分析 被引量:1
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作者 黄芳 况怡婷 +3 位作者 张立麒 米铁 辛善志 刘晓烨 《燃烧科学与技术》 CAS CSCD 北大核心 2024年第1期82-90,共9页
针对煤中常见含铁矿物黄铁矿在富氧燃烧典型气氛下转化特性,通过同步热分析结合烟气分析研究了黄铁矿在CO_(2)气氛下的转化行为.结果发现,黄铁矿在CO_(2)气氛下主要经历5个失重阶段且均为吸热过程,首先是黄铁矿颗粒表面硫脱除的起始热解... 针对煤中常见含铁矿物黄铁矿在富氧燃烧典型气氛下转化特性,通过同步热分析结合烟气分析研究了黄铁矿在CO_(2)气氛下的转化行为.结果发现,黄铁矿在CO_(2)气氛下主要经历5个失重阶段且均为吸热过程,首先是黄铁矿颗粒表面硫脱除的起始热解段(相界面反应,n=1/2),活化能低于其在N_(2)气氛下近30 kJ/mol,为220.27 kJ/mol,随后裂解成磁黄铁矿(三维扩散,n=1/2)活化能与其在N_(2)(177.27 kJ/mol)下接近为178.1 kJ/mol;温度高于690℃,随着升温磁黄铁矿缓慢失硫,CO_(2)逐渐参与磁黄铁矿转化且释放SO_(2)和CO;820~1150℃经历双峰失重峰阶段,820~1020℃,氧化气体产物SO_(2)大量生成且在约1000℃达到体积浓度峰值;最后1020~1150℃,坩埚中残留物大量与CO_(2)持续氧化反应失重形成SO_(2)和CO,坩埚中形成复杂物相体系,铁硫化物和铁氧化物共存(或共融).CO_(2)参与黄铁矿产物转化失重阶段活化能分别为180.94 kJ/mol、229.69 kJ/mol和243.46 kJ/mol,动力学机制均为成核与生长(n=1). 展开更多
关键词 黄铁矿 非等温 co_(2) 氧化转化 动力学
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不同溶剂预处理煤在ScCO_(2)作用下的谱学差异及其机制
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作者 张小东 亢红东 +2 位作者 李冰辉 张硕 韩磊 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2024年第9期2657-2666,共10页
为了探究溶剂预处理后超临界二氧化碳(ScCO_(2))对煤化学结构的影响,以长治霍尔辛赫贫煤为研究对象,分别用四氢呋喃(THF)、盐酸(HCI)和氢氟酸(HF)对煤样进行预处理,采用傅里叶红外光谱(FTIR)、固体核磁共振(^(13)C-NMR)和X射线衍射(XRD... 为了探究溶剂预处理后超临界二氧化碳(ScCO_(2))对煤化学结构的影响,以长治霍尔辛赫贫煤为研究对象,分别用四氢呋喃(THF)、盐酸(HCI)和氢氟酸(HF)对煤样进行预处理,采用傅里叶红外光谱(FTIR)、固体核磁共振(^(13)C-NMR)和X射线衍射(XRD)测试,探讨了ScCO_(2)对预处理煤的化学组成和结构的影响机理。研究表明:①FITR分峰拟合谱图实验曲线基本一致,而各官能团吸收峰位置及峰强度仍出现一定的偏差,酸(HCI、HF)预处理后部分波段脂肪族峰位消失。两类酸预处理顺序不同,对煤中含氧官能团、脂肪结构及芳烃结构作用效果也不相同。HF-HCI处理后芳烃C=C结构和含氧官能团峰强度均增强,而HCI-HF处理后芳烃C=C结构强度减弱,含氧官能团结构峰强度变化不明显。THF预处理后煤样芳烃C=C结构峰强度增强,含氧官能团结构峰强度降低。总体芳烃C=C结构峰强度远大于脂肪族结构和含氧官能团结构的峰强度。②^(13)C-NMR谱中主要官能团谱峰的化学位移出现了一定程度的偏移,芳香碳f_(a)^(B)化学位移向增大的方向偏移。大分子结构参数中,芳香碳含量远大于脂肪碳含量,说明煤大分子结构中芳香碳占主要组成部分。③XRD谱中002峰与101峰衍射强度明显增大,芳香微晶层网面间距d_(002)呈现升高趋势,说明THF、酸(HF、HCI)处理和ScCO_(2)对煤大分子结构产生了一定程度的改造作用,使煤的大分子网络结构变得疏松,进而使微晶结构参数d_(002)整体增大。研究认为,溶剂作用后煤的谱学特征变化不仅与溶剂性质有关,还与无机酸处理顺序有关,由此使得官能团组成和大分子结构不同程度改变,进而影响ScCO_(2)对预处理煤的萃取效果。 展开更多
关键词 超临界二氧化碳(Scco_(2)) 溶剂预处理 傅里叶变换红外光谱 固体核磁共振(^(13)C-NMR) 化学结构
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超临界CO_(2)作用下无烟煤结构响应特征及高压吸附机理 被引量:2
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作者 王建美 梁卫国 +3 位作者 牛栋 陈跃都 王聪伟 贺伟 《天然气工业》 EI CAS CSCD 北大核心 2024年第4期115-125,共11页
中国深部煤层气资源丰富,将CO_(2)注入深部煤层,在提高煤层气采收率同时,还可实现CO_(2)地质封存(CO_(2)-ECBM)。通常,深部煤层CO_(2)处于超临界态并显著影响煤体吸附能力,但对于超临界CO_(2)作用下煤体结构演化及吸附机理尚不清晰。为... 中国深部煤层气资源丰富,将CO_(2)注入深部煤层,在提高煤层气采收率同时,还可实现CO_(2)地质封存(CO_(2)-ECBM)。通常,深部煤层CO_(2)处于超临界态并显著影响煤体吸附能力,但对于超临界CO_(2)作用下煤体结构演化及吸附机理尚不清晰。为此,以山西晋城成庄矿二叠系山西组三号煤层为研究对象,开展了无烟煤对超临界CO_(2)的高压吸附实验,结合傅里叶变换红外光谱(FTIR)、X射线衍射光电子能谱(XPS)测试及比表面积(BET)测试,分析了超临界CO_(2)高压吸附引起的无烟煤化学结构与孔隙结构响应特征,最后揭示了无烟煤对超临界CO_(2)的高压吸附特性及吸附机理。研究结果表明:①超临界CO_(2)高压吸附存在突变点,35℃时突变点位于临界压力(8 MPa)附近,在突变点处的吸附能力最小;②超临界CO_(2)可使芳香环枝接官能团、醚氧键、羟基氢键断裂,脂肪结构甲基脱落,可为CO_(2)提供更多的吸附位点,增强了无烟煤表面吸附能力;③超临界CO_(2)改变无烟煤介孔的孔隙结构特征和分形特征,吸附后平均孔径、孔体积、比表面积、分形维数呈增大趋势,孔隙粗糙度增大,对孔隙结构改造作用表现为“增孔、扩孔、粗糙化”,可提供更多吸附空间,增强了无烟煤吸附能力;④在深部煤层中注入CO_(2),应优先选择高孔隙度、高渗透性储层,注入煤层环境应尽可能远离CO_(2)临界点区域,储层对CO_(2)才有最大吸附能力。结论认为,成果认识为深部煤层CO_(2)可注性及封存潜力评估提供了重要的理论依据,对煤层气高效开发具有重要现实意义。 展开更多
关键词 co_(2)-ECBM 超临界co_(2) 高压吸附特性 化学结构 孔隙结构 无烟煤 封存 可注性
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活性位点电子密度变化对光催化CO_(2)活化和选择转化的影响 被引量:1
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作者 曹玥晗 郭瑞 +2 位作者 马敏智 黄泽皑 周莹 《物理化学学报》 SCIE CAS CSCD 北大核心 2024年第1期1-2,共2页
光催化二氧化碳(CO_(2))还原制液体燃料和高值化学品技术不仅能充分利用可再生能源太阳光,实现化学储能;更重要的是,此技术以温室气体CO_(2)为原料,因此可以减缓全球温室效应,构造人工碳循环。然而,光催化CO_(2)还原制液体燃料和高值化... 光催化二氧化碳(CO_(2))还原制液体燃料和高值化学品技术不仅能充分利用可再生能源太阳光,实现化学储能;更重要的是,此技术以温室气体CO_(2)为原料,因此可以减缓全球温室效应,构造人工碳循环。然而,光催化CO_(2)还原制液体燃料和高值化学品反应过程中面临诸多挑战:(1)CO_(2)分子吸附和活化过程困难;(2)(高附加值)碳产物选择性低;(3)产物生成后易发生其他副反应导致催化剂失活或产物选择性下降。受到以上三个挑战的制约,目前的反应效率较低,难以满足工业化应用。由于光催化CO_(2)向高值化学品的转化过程为质子耦合光生电子参与的还原反应,因此活性位点的电子密度会显著影响以上挑战的解决。然而,光催化CO_(2)还原过程涉及众多基元步骤,每个基元步骤对于活性位点的电子密度要求并不清晰,这导致无法有针对性设计高效的催化剂来促进光催化CO_(2)分子的有效活化及高选择性转化。本文综述了近期活性位点的电子密度变化对于CO_(2)分子吸附和活化过程、碳产物选择性调控和产物脱附及过氧化的影响规律,并总结了调控活性位点上电子密度的方法,旨在对未来设计高效光催化剂提供参考和理论依据。 展开更多
关键词 光催化二氧化碳还原 高附加值化学品 电子密度调控 活性位点 产物选择性
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CO_(2)与液态物质耦合对沉香形成及成分的影响
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作者 赵威威 周再知 +3 位作者 刘高峰 张青青 黄桂华 庞圣江 《华南农业大学学报》 CAS CSCD 北大核心 2024年第1期60-70,共11页
【目的】探明CO_(2)与液态物质(无机盐、激素和真菌)耦合对土沉香Aquilaria sinensis结香的诱导效果,寻求高效诱导土沉香结香的新方法,为人工诱导结香技术促进结香提供理论依据。【方法】以13年生土沉香为研究对象,采用CO_(2)与3种液态... 【目的】探明CO_(2)与液态物质(无机盐、激素和真菌)耦合对土沉香Aquilaria sinensis结香的诱导效果,寻求高效诱导土沉香结香的新方法,为人工诱导结香技术促进结香提供理论依据。【方法】以13年生土沉香为研究对象,采用CO_(2)与3种液态物质(无机盐、激素和真菌)耦合的方法诱导处理树体,1年后,取样观察沉香树体结香部位切片组织结构和内含物变化,并检测醇溶性挥发油含量及化学成分。【结果】1)不同诱导处理对土沉香木质部中的淀粉颗粒均有不同程度的消耗。木薄壁细胞内侵填物质通过导管–薄壁细胞间半具缘纹孔进入相邻导管内积累至完全堵塞。2)CO_(2)与3种液态物质(无机盐、激素和真菌)诱导处理中,射线薄壁细胞、轴向薄壁细胞和导管内油脂类物质积累存在差异,CK-1(只充CO_(2))仅存有少量油脂类物质,CK-2(只打孔不充CO_(2))未观察到油脂类物质。3)诱导变色范围受诱导方法影响较大,处理孔位置越远诱导变色距离越短,CO_(2)与无机盐联合诱导处理变色范围最大。4)不同诱导处理的醇溶性挥发油含量存在差异,黑褐色树脂越多含量越高。GCMS结果显示,5种诱导处理后共鉴定出74种化合物,其中共有的成分主要为11种,且部分醇溶性挥发油成分的相对含量在不同处理间差异较大。【结论】5种诱导方式所产沉香样品的醇溶性挥发油含量、沉香特征性成分及含量存在差异,CO_(2)与无机盐耦合诱导的土沉香特征性成分和含量均高于其他处理,诱导所产沉香品质最好,其次为CO_(2)与真菌联合诱导所产沉香,仅填充CO_(2)所产沉香品质较差。 展开更多
关键词 co_(2) 耦合 树脂 化学成分 沉香 诱导方式
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CO_(2)响应型β-环糊精材料用于稠油降黏 被引量:1
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作者 孙彩霞 马浩 +1 位作者 于福策 夏淑倩 《精细化工》 EI CAS CSCD 北大核心 2024年第4期895-901,919,共8页
制备了一种环境友好型马来酸酐改性β-环糊精(MAH-β-CD),温和条件下将其与聚醚胺(JD230)通过静电作用合成了具有CO_(2)响应性的表面活性剂(MJD230)。MJD230能与稠油形成稳定的水包油乳液,进而有效降低溶液的表面张力。在CO_(2)调控下,M... 制备了一种环境友好型马来酸酐改性β-环糊精(MAH-β-CD),温和条件下将其与聚醚胺(JD230)通过静电作用合成了具有CO_(2)响应性的表面活性剂(MJD230)。MJD230能与稠油形成稳定的水包油乳液,进而有效降低溶液的表面张力。在CO_(2)调控下,MJD230可重复用于稠油的乳化降黏和破乳。利用FTIR对MJD230结构进行了表征。通过观察降黏率和乳液粒径优化MJD230的合成条件,同时对降黏效果和乳液的稳定性进行了考察。将在反应温度为60℃,反应时间为60min,MAH-β-CD与JD230物质的量比为2∶1条件下制备的MJD230配成质量分数为0.5%的MJD230水溶液,其与稠油按照体积比为3∶7乳化后,稠油降黏率可达99.19%。反应体系pH和电导率的可逆变化证明了MJD230溶液对CO_(2)的响应性,这为表面活性剂驱油和CO_(2)捕集相结合提高稠油采收率提供了可行的途径。 展开更多
关键词 静电作用 表面张力 co_(2)响应型表面活性剂 稠油降黏 破乳 油田化学品
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延长石油CO_(2)捕集与封存技术及实践
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作者 王香增 杨红 +5 位作者 刘芳娜 胡海文 李超跃 刘瑛 梁全胜 张春威 《煤炭科学技术》 EI CAS CSCD 北大核心 2024年第9期248-262,共15页
延长石油创新将煤化工CO_(2)捕集与油藏CO_(2)封存相结合,实现了煤炭清洁利用、碳减排和原油增产等多重效益,探索形成了一条煤化工产业低碳发展的新路径。系统阐述了延长石油CCUS全流程一体化技术及矿场实践,形成了煤化工低温甲醇洗低成... 延长石油创新将煤化工CO_(2)捕集与油藏CO_(2)封存相结合,实现了煤炭清洁利用、碳减排和原油增产等多重效益,探索形成了一条煤化工产业低碳发展的新路径。系统阐述了延长石油CCUS全流程一体化技术及矿场实践,形成了煤化工低温甲醇洗低成本CO_(2)捕集技术,捕集成本105元/t,捕集示范规模30万t/a;建立了CO_(2)封存选址及潜力评价方法,评价油田CO_(2)理论封存量为8.84×10~8 t,封存适宜区主要分布在油田西部;揭示了跨时间尺度油藏CO_(2)封存状态演变规律,水气交替注入情景下CO_(2)封存10年和100年对应的构造、束缚、溶解和矿化封存量占比分别为24.38%、27.19%、48.38%、0.05%和15.09%、38.65%、45.77%、0.49%;创建了盖层封闭性评价方法,明确化子坪CO_(2)封存试验区长4+5盖层主要为Ⅰ、Ⅱ类;构建了“三位一体”CO_(2)安全监测体系,监测未发现CO_(2)地质泄漏,封存安全等级为Ⅰ级,矿场实现CO_(2)安全有效封存10.12×10~4 t。煤化工CO_(2)捕集与油藏CO_(2)封存矿场实践取得了良好的碳减排与原油增产效果,相关创新技术应用前景较为广阔。 展开更多
关键词 煤化工 co_(2)捕集 co_(2)封存 盖层封闭性 安全监测 延长石油
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CO_(2)化学转化碳酸二甲酯/乙二醇的能量集成和碳流分析
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作者 纵华健 李英 张香平 《化工进展》 EI CAS CSCD 北大核心 2024年第10期5369-5380,共12页
CO_(2)化学转化可获得高值化学品,实现CO_(2)资源化利用,是解决“碳中和”问题的理想方法之一。两步酯交换法生产碳酸二甲酯(DMC)、副产乙二醇,是实现CO_(2)高值化利用的有效途径。针对该过程面临的CO_(2)活化难、生产成本高的技术难题... CO_(2)化学转化可获得高值化学品,实现CO_(2)资源化利用,是解决“碳中和”问题的理想方法之一。两步酯交换法生产碳酸二甲酯(DMC)、副产乙二醇,是实现CO_(2)高值化利用的有效途径。针对该过程面临的CO_(2)活化难、生产成本高的技术难题,本文采用碳酸乙烯酯一步吸收环氧乙烷、离子液体催化剂、反应精馏实现酯交换以及变压精馏分离碳酸二甲酯和甲醇共沸物等过程强化方法实现CO_(2)两步转化。本文首先利用AspenPlus完成全流程模拟,再采用BP神经网络和第二代非支配排序多目标遗传算法(NSGA-Ⅱ)优化酯交换过程参数,基于夹点技术对酯交换过程进行能量集成并对全过程进行严格的碳流分析。能量集成结果表明,酯交换过程热公用工程用量降低40.34%;碳流分析结果表明,全过程总碳原子利用率达到99.81%,考虑能源消耗的间接碳排放,碳原子利用效率为86.90%,净CO_(2)排放量0.314kgCO_(2)/kgDMC。与文献报道的工艺相比,本文工艺流程所得DMC产品纯度较高(99.9995%)、能耗更小(1.10kW·h/kgDMC),可为CO_(2)化学转化碳酸二甲酯和乙二醇提供技术指导。 展开更多
关键词 co_(2)化学转化 酯交换 反应精馏 遗传算法 夹点技术 碳流分析
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基于分级气化的燃烧前CO_(2)捕集发电系统及性能分析
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作者 李济超 韩巍 +2 位作者 马文静 叶旖茵 金红光 《动力工程学报》 CAS CSCD 北大核心 2024年第8期1253-1263,1297,共12页
为实现煤炭高效低碳化发电,提出了一种基于分级气化和化学回热的燃烧前CO_(2)捕集发电系统。该系统将煤气化过程解耦为600℃的热解过程和1400℃的气化过程,利用燃气轮机的排烟余热来驱动热解过程,此外利用合成气的显热驱动热解气重整。... 为实现煤炭高效低碳化发电,提出了一种基于分级气化和化学回热的燃烧前CO_(2)捕集发电系统。该系统将煤气化过程解耦为600℃的热解过程和1400℃的气化过程,利用燃气轮机的排烟余热来驱动热解过程,此外利用合成气的显热驱动热解气重整。将新系统与参比系统进行热力学性能比较,分析了不同关键参数对新系统性能的影响。结果表明:在90%碳捕集率下,新系统的净发电效率、效率和度电CO_(2)排放量分别为39.97%、38.94%和85.27 g/(kW·h),相较于参考系统,分别提高了2.33个百分点、2.34个百分点和降低了5.27 g/(kW·h);新系统性能提升的主要原因在于其气化过程的不可逆损失大幅减少,为参比系统的62.13%;当气化温度为1200℃、水碳比为1.4、碳捕集率为80%时,系统净发电效率最高,可达41.3%;随着碳捕集率的增加,净发电效率及度电CO_(2)排放量均降低,其中度电CO_(2)排放量最低可达51.1 g/(kW·h)。 展开更多
关键词 二氧化碳捕集 煤气化 [火用]效率 净发电效率 化学回热
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天然CO_(2)沿井筒泄漏两相反应流动特征模拟
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作者 郑长远 蔡雨娜 +1 位作者 雷宏武 封官宏 《安全与环境工程》 CAS CSCD 北大核心 2024年第1期196-204,239,共10页
碳捕集利用与封存(CCUS)技术是实现大规模碳减排的重要途径,而CO_(2)注入储层后的泄漏风险是CCUS技术关注的重点之一。由于目前CCUS工程中还未有深部封存的CO_(2)泄漏事故发生,但天然CO_(2)泄漏事件并不少见,因此以天然CO_(2)井筒泄漏... 碳捕集利用与封存(CCUS)技术是实现大规模碳减排的重要途径,而CO_(2)注入储层后的泄漏风险是CCUS技术关注的重点之一。由于目前CCUS工程中还未有深部封存的CO_(2)泄漏事故发生,但天然CO_(2)泄漏事件并不少见,因此以天然CO_(2)井筒泄漏点为研究对象进行类比研究可为CCUS工程泄漏风险评估提供有价值的参考依据。以西宁盆地南部天然CO_(2)泄漏场地中的典型CO_(2)井筒泄漏点———ZK10井为研究对象,结合实测数据,采用数值模拟方法分析了该井间歇喷发过程的动力学机制及伴随的化学变化特征。结果表明:①ZK10井的水气间歇喷发过程受CO_(2)过饱和析出、气举效应及储层动态补给的协同控制;②受控于CO_(2)的过饱和析出及流体混合作用,井筒内CO_(2)闪蒸点以上位置地下水的pH值随深度减小而增大,并随喷发过程发生周期性的变化;③ZK10井间歇喷发过程中,井筒内形成方解石和石英矿物沉淀,受控于矿物的溶解特性,其沉淀特征各异。该研究结果可为类似的天然或CCUS工程中CO_(2)井筒泄漏点的泄漏机制及化学特征研究提供参考,进而为相关部门制定监测及预防措施提供依据。 展开更多
关键词 天然二氧化碳 井筒泄漏 间歇喷发 化学反应 CCUS技术 数值模拟
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基于专利数据的CO_(2)捕集工艺节能降耗化学吸收剂的技术研发方向研究
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作者 张双梅 刘群 +2 位作者 姚芳芳 冯先明 季小菊 《中国发明与专利》 2024年第S01期50-59,共10页
CO_(2)捕集技术是CCUS工艺系统中最关键的环节,化学吸收法是发展最为成熟的燃烧后CO_(2)捕集方法。本文从CO_(2)捕集工艺节能降耗化学吸收剂的角度,采用专利定量方法对CO_(2)工艺节能降耗化学吸收剂技术发展以来的国内外专利进行分析,... CO_(2)捕集技术是CCUS工艺系统中最关键的环节,化学吸收法是发展最为成熟的燃烧后CO_(2)捕集方法。本文从CO_(2)捕集工艺节能降耗化学吸收剂的角度,采用专利定量方法对CO_(2)工艺节能降耗化学吸收剂技术发展以来的国内外专利进行分析,对全球与中国专利申请宏观态势、专利技术情况、各国专利技术流向等进行了研发阶段的专利导航,以期为国内相关研究人员在专利技术布局、专利竞争态势等方面提供专利申请建议。 展开更多
关键词 co_(2) 捕集 节能降耗 化学吸收剂 技术研发 专利导航
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致密油藏CO_(2)驱响应性防气窜体系的制备及性能
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作者 杜代军 方泽洲 +3 位作者 章洋阳 蒲万芬 张辉 朱建林 《精细化工》 EI CAS CSCD 北大核心 2024年第5期1135-1142,共8页
以3-二甲胺基丙胺(NNDP)和油酸为原料,制备了具有叔胺结构的CO_(2)响应性单体N,N-二甲基油酸酰胺丙基叔胺(DOAPA),将其与阴离子表面活性剂对甲苯磺酸钠(SPTS)复配,构建了具有CO_(2)响应性的蠕虫状胶束(CO_(2)-TWMS)。通过考察CO_(2)-TWM... 以3-二甲胺基丙胺(NNDP)和油酸为原料,制备了具有叔胺结构的CO_(2)响应性单体N,N-二甲基油酸酰胺丙基叔胺(DOAPA),将其与阴离子表面活性剂对甲苯磺酸钠(SPTS)复配,构建了具有CO_(2)响应性的蠕虫状胶束(CO_(2)-TWMS)。通过考察CO_(2)-TWMS与CO_(2)接触前后的电导率、化学结构和微观形貌变化表征了体系的响应性,结合其表面活性变化及致密基质/裂缝双重介质CO_(2)驱替与CO_(2)-TWMS防气窜过程中的压力和采收率变化,揭示了CO_(2)-TWMS防气窜性能与机制。结果表明,当n(SPTS)∶n(DOAPA)=1∶1时,CO_(2)-TWMS的黏度最大(4125 mPa·s)。CO_(2)和N2能够刺激CO_(2)-TWMS电导率在0.90~1.95 mS/cm之间可逆变化,诱导微观形貌在蠕虫状胶束和球形胶束间转换。此外,CO_(2)能够将CO_(2)-TWMS临界胶束浓度(CMC)从0.63 mmol/L(未通入CO_(2))降至0.25 mmol/L,最低表面张力从30.2 mN/m(未通入CO_(2))降至29.1 mN/m,CO_(2)-TWMS在气液界面的吸附效率和效能增强,有利于胶束的形成。在致密基质/裂缝双重介质中,CO_(2)诱导蠕虫状胶束形成,增大驱替过程中的压力,扩大CO_(2)驱替波及率,采收率提高22.6%。 展开更多
关键词 蠕虫状胶束 co_(2)响应性 致密油藏 防气窜 油田化学品
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