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MnO_(2)/石墨烯修饰玻碳电极同时测定粉煤灰中镉和铅
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作者 王艳坤 张建民 王一帆 《现代化工》 北大核心 2026年第2期247-252,共6页
采用简易水热法制备了二氧化锰纳米颗粒/还原氧化石墨烯(MnO_(2)/rGO)复合材料并修饰于玻碳电极(GCE)表面,构建了MnO_(2)/rGO/GCE电化学传感器用于同时测定粉煤灰中痕量Cd、Pb。通过透射电子显微镜(TEM)、X射线光电子能谱(XPS)、X射线衍... 采用简易水热法制备了二氧化锰纳米颗粒/还原氧化石墨烯(MnO_(2)/rGO)复合材料并修饰于玻碳电极(GCE)表面,构建了MnO_(2)/rGO/GCE电化学传感器用于同时测定粉煤灰中痕量Cd、Pb。通过透射电子显微镜(TEM)、X射线光电子能谱(XPS)、X射线衍射(XRD)、氮气吸附-脱附测试对复合材料的形貌、组成、结构及孔隙特性进行了表征,结果表明平均粒径约5 nm的MnO_(2)纳米颗粒均匀紧密负载于rGO片层上。优化实验条件下,修饰电极对Pb^(2+)、Cd^(2+)在1.0~50μg/L范围内呈现良好线性,检出限(S/N=3)分别为0.04、0.06μg/L,并表现出优异的选择性、稳定性和灵敏度。该电极进一步应用于粉煤灰样品检测,结果令人满意。 展开更多
关键词 mno_(2)/还原氧化石墨烯 玻碳电极 粉煤灰 电化学检测
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Ti掺杂Li2MnO3催化剂光催化降解四环素的性能研究
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作者 蒋清梅 周颖 +2 位作者 代朋 彭秦磊 李园园 《低碳化学与化工》 北大核心 2026年第3期131-138,共8页
针对四环素等抗生素残留引发的水体污染问题,采用高温固相法合成了不同Ti掺杂量的Li_(2)Mn_(1-x)TixO_(3)(x=0、0.1、0.2、0.3或0.4)催化剂,旨在通过调控Li2MnO3的能带结构提升其光催化性能。通过XRD和FT-IR等表征分析了催化剂的物化性... 针对四环素等抗生素残留引发的水体污染问题,采用高温固相法合成了不同Ti掺杂量的Li_(2)Mn_(1-x)TixO_(3)(x=0、0.1、0.2、0.3或0.4)催化剂,旨在通过调控Li2MnO3的能带结构提升其光催化性能。通过XRD和FT-IR等表征分析了催化剂的物化性质,发现所有催化剂均保持纯相结构。光催化实验结果表明,在500 W汞灯下照射30 min,Li_(2)Mn_(0.7)Ti_(0.3)O_(3)展现出最优的光催化性能,其四环素降解率达66.7%,表观动力学速率常数为0.08480 L/(mg.min),约为Li2MnO3的1.90倍。莫特-肖特基和阻抗测试表明,Ti掺杂使Li2MnO3导带电位负移,同时提升了载流子分离效率。自由基捕获实验证实空穴(h+)和超氧阴离子自由基(·)是降解过程的主要活性物种。 展开更多
关键词 光催化 LI2mno3 Ti掺杂 四环素
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Gen 2 Carbon公司与Americarb公司联手推进回收碳纤维清洁能源应用战略
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作者 燕春晖(摘译) 《石油炼制与化工》 北大核心 2026年第2期76-76,共1页
全球能源转型背景下,循环经济与净零排放目标推动清洁能源技术向低碳化、高效化升级。回收碳纤维(rCF)作为兼具环保属性与高性能特征的新型材料,在储能与能源转化领域的应用潜力备受关注。近日,英国Gen 2 Carbon公司与美国Americarb公... 全球能源转型背景下,循环经济与净零排放目标推动清洁能源技术向低碳化、高效化升级。回收碳纤维(rCF)作为兼具环保属性与高性能特征的新型材料,在储能与能源转化领域的应用潜力备受关注。近日,英国Gen 2 Carbon公司与美国Americarb公司宣布建立战略合作伙伴关系,共同开发rCF在清洁能源领域的创新应用,旨在将难以回收的碳纤维增强聚合物(CFRP)废料转化为高性能组件,服务于锂离子电池、燃料电池、电解槽等关键能源技术,助力全球循环经济与净零目标实现。 展开更多
关键词 清洁能源 能源转化 储能 Gen 2 carbon公司
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Recent advances in carbon-based materials for CO_(2) capture and utilization
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作者 FU Lang YAO Dingding +2 位作者 HU Qiang YAN Shuiping YANG Haiping 《燃料化学学报(中英文)》 北大核心 2026年第3期15-32,共18页
CO_(2) capture and utilization(CCU)technologies have been recognized as crucial strategies for mitigating global warming,reducing carbon emission,and promoting resource circularity.As such,the design and development o... CO_(2) capture and utilization(CCU)technologies have been recognized as crucial strategies for mitigating global warming,reducing carbon emission,and promoting resource circularity.As such,the design and development of related materials have attracted considerable research attention.Carbon-based materials,characterized by tunable pore structures,abundant active sites,high specific surface area,and excellent chemical stability,demonstrate significant potential for applications in CO_(2) capture and utilization.This review systematically analyzes the adsorption behaviors and performance variations of typical carbon materials,including activated carbon,porous carbon,graphene,and carbon nanotubes during CO_(2) capture processes.Concerning CO_(2) utilization,emphasis is placed on recent advances in the catalytic applications of carbon-based materials in key reactions such as methanation,reverse water-gas shift,dry reforming of methane,and alcohol synthesis.Moreover,the benefits and drawbacks of carbon materials in terms of CO_(2) adsorption capacity,catalytic activity,and stability are thoroughly evaluated,and their potential applications in integrated CO_(2) capture and utilization technologies are discussed.Finally,key strategies for enhancing the performance of carbonaceous materials through structural modulation and surface modification are elucidated.This review aims to provide theoretical guidance for the future development and large-scale implementation of carbon-based materials in CCU technologies. 展开更多
关键词 CO_(2)capture and utilization carbon materials ADSORPTION CATALYSIS
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A carbon sponge supporting a MoS_(2)-Mo_(2)C heterostructure as the Li_(2)S host for high-performance lithium sulfur batteries
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作者 Ji Yuanxiao Zhang Weiye +7 位作者 Xue Jiarui Zhang Jiyuan Ge Yunping Zhu Nan Jiang Ruibin Lei Zhibin Liu Zonghuai Sun Jie 《新型炭材料(中英文)》 北大核心 2026年第1期109-126,共18页
Despite their high theoretical capacity and energy density,lithiumsulfur(Li–S)batteries still face challenges such as soluble lithium polysulfides(LiPSs)shuttling and sluggish redox kinetics.In this work,we used a no... Despite their high theoretical capacity and energy density,lithiumsulfur(Li–S)batteries still face challenges such as soluble lithium polysulfides(LiPSs)shuttling and sluggish redox kinetics.In this work,we used a novel MoS_(2)-Mo_(2)C heterostructure anchored on a carbon sponge(CS)as a Li_(2)S host to solve these problems.A simple hydrothermal process following carbothermal reduction was used to construct the MoS_(2)-Mo_(2)C heterostructure,enabling control of the phases and integration of MoS_(2) and Mo_(2)C.Structural characterization confirmed the coherent interface of the heterostructure with a precise orientation relationship between the two phases and their uniform distribution.An evaluation of the adsorption and catalytic performance of the material showed that it has an exceptional LiPSs adsorption capacity with faster conversion from Li_(2)S_(4) to Li_(2)S_(2).Density functional theory calculations further confirmed these results.As a result,the cathode had a high initial discharge capacity of 693 mAh g^(−1) at 0.2 C and achieved stable cycling at 2 C for 500 cycles with a low decay rate of 0.107%per cycle.The heterostructure design,coupled with the macroporous CS framework,effectively prevented the shuttling and increased sulfur utilization,offering a promising way to produce practical high-energydensity Li–S batteries. 展开更多
关键词 Lithium-sulfur batteries HETEROSTRUCTURE carbon sponge Li_(2)S host Shuttle effect
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MnO Nanocubes Enabling Charging Potential of Li-O_(2)Batteries to 3.25 V in a LiMnO_(4)-dominated Novel Reaction Mechanism
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作者 LI Zhuxin LI Xufeng +5 位作者 SHU Qingzhu MA Kai YU Hongquan ZHANG Yong LIU Shuhong ZHAO Hong 《Journal of Wuhan University of Technology(Materials Science)》 2026年第2期296-303,共8页
We proposed a strategy to address the issue by synthesizing MnO with half-filled 3 d electron orbitals.That is,MnO nanocubes with an edge length of 61.82 nm were successfully prepared through electros-pinning and one-... We proposed a strategy to address the issue by synthesizing MnO with half-filled 3 d electron orbitals.That is,MnO nanocubes with an edge length of 61.82 nm were successfully prepared through electros-pinning and one-step pyrolysis as the cathode electrode for Li-O_(2)batteries.It is observed that the intermediate LiMnO_(4)rather than Li_(2)O_(2)is formed when LiO_(2)interactes with MnO(111)during the discharge process.It is precisely because of LiMnO_(4)that reduces its charge overpotential to 0.29 V.The novel reaction mechanism dominated by LiMnO_(4)further facilitates the lower charge overpotential,thereby enhancing the energy efficiency of the batteries. 展开更多
关键词 mno nanocubes Limno4 low charge overpotential Li-O2 batteries
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Synthesis of a novel carbon microsphere with multi-cavity mesoporous structure for CO_(2) adsorption
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作者 Li Liu Qunyan Li +3 位作者 Qi Wei Yan Mei Wenjuan Chen Zuoren Nie 《Journal of Environmental Sciences》 2026年第1期199-209,共11页
Porous carbon microspheres are widely regarded as a superior CO_(2) adsorbent due to their exceptional efficiency and affordability.However,better adsorption performance is very attractive for porous carbon microspher... Porous carbon microspheres are widely regarded as a superior CO_(2) adsorbent due to their exceptional efficiency and affordability.However,better adsorption performance is very attractive for porous carbon microspheres.And modification of the pore structure is one of the effective strategies.In this study,multi-cavity mesoporous carbon microspheres were successfully synthesized by the synergistic method of soft and hard templates,during which a phenolic resin with superior thermal stability was employed as the carbon precursor and a mixture of silica sol and F108 as the mesoporous template.Carbon microspheres with multi-cavity mesoporous structures were prepared,and all the samples showed highly even mesopores,with diameters around 12 nm.The diameter of these microspheres decreased from 396.8 nm to about 182.5 nm with the increase of silica sol.After CO_(2) activation,these novel carbon microspheres(APCF0.5-S1.75)demonstrated high specific surface area(983.3 m^(2)/g)and remarkable CO_(2) uptake of 4.93 mmol/g at 0℃ and1 bar.This could be attributed to the unique multi-cavity structure,which offers uniform mesoporous pore channels,minimal CO_(2) transport of and a greater number of active sites for CO_(2) adsorption. 展开更多
关键词 Porous carbon CO_(2)adsorption Multi-cavity structure carbon sphere
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Electrospun Li_(3)V_(2)(PO_(4))_(3)/carbon nanofibers as freestanding cathodes for high-performance zinc-ion batteries
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作者 Ding Honggeng Ren Yueyue +1 位作者 Zhang Yi Zhao Hongyang 《新型炭材料(中英文)》 北大核心 2026年第1期173-183,共11页
Li_(3)V_(2)(PO_(4))_(3) is a promising high-voltage cathode for zincion batteries,but it suffers from a poor electronic conductivity and vanadium dissolution in aqueous electrolytes.The growth of carboncoated Li_(3)V_... Li_(3)V_(2)(PO_(4))_(3) is a promising high-voltage cathode for zincion batteries,but it suffers from a poor electronic conductivity and vanadium dissolution in aqueous electrolytes.The growth of carboncoated Li_(3)V_(2)(PO_(4))_(3)(LVP@C)nanoparticles on carbon nanofibers(CNFs)has been achieved by an electrospinning technique followed by calcination.The protective carbon coating prevents the aggregation of the LVP nanoparticles and suppresses V dissolution by preventing direct contact with aqueous electrolytes.The CNFs derived from the electrospun nanofibers provide a 3D network to increase the electronic conductivity of the LVP electrode,and the LVP@C-CNF hybrid film can be directly used as a freestanding cathode for zinc-ion batteries without adding conductive additives and binders.A mechanism for the formation of a uniform and continuous carbon coating has been proposed.This nanostructure,combined with the uniform and intact carbon coverage,significantly increases the electronic conductivity.This LVP@C-CNF freestanding electrode has an excellent rate capability(47.3%retention at 2 C)and cycling stability(61.2%retention after 100 cycles)within the voltage range 0.6 V to 1.95 V and is highly suitable for zinc-ion battery applications. 展开更多
关键词 Li_(3)V_(2)(PO_(4))_(3)/C Electrospinning technology carbon nanofiber films Freestanding cathode Zinc-ion batteries
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Electrochemical phase reconstruction of biomimetic MnO_(2)structure to enhance sodium-ion storage kinetics in aqueous systems
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作者 Weijie Zheng Jingzhou Ling +7 位作者 Shiru Li Tian Wen Zhibiao Cui Dong Shu Xiuhua Li Honghong Cheng Fan Zhang Tao Meng 《Journal of Energy Chemistry》 2026年第1期29-38,I0003,共11页
The application of conventional manganese dioxide(MnO_(2))materials in sodium-ion supercapacitors(Na-SCs)is considerably limited by their low conductivity and structural instability.Biomimetic morphology engineering c... The application of conventional manganese dioxide(MnO_(2))materials in sodium-ion supercapacitors(Na-SCs)is considerably limited by their low conductivity and structural instability.Biomimetic morphology engineering can optimize the electrochemical performance of MnO_(2).Here,based on the metal-organic frameworks(MOFs)-derived method and electrochemical reconstruction,a coral-like MnO_(2)structure integrated with a functional nitrogen-doped carbon(NC)coating is designed for Na-SC application.The bioinspired coral-like structure captures numerous electrolyte ions and increases the Na+concentration on the electrode surface,which is beneficial for optimizing the Na+transport pathway and accelerating the electrode reaction kinetics.Moreover,the coral-like crosslinked structure effectively enhances the mechanical properties,enabling the maintenance of the structure of MnO_(2)-based electrodes during long-term operation.Furthermore,in/ex-situ characterizations are performed to elucidate the mechanism of lattice transformation during electrochemical phase reconstruction.Additionally,the theoretical calculation and simulation results reveal the ion/electron dynamics in the fabricated electrode.The prepared electrode demonstrates excellent capacitance storage ability(340.7 F g^(−1)at 0.5 A g^(−1))and cycling stability(85.1%capacitance retention after 10,000 cycles).The assembled hybrid device exhibits exceptional life-span(82.0%capacitance retention after 10,000 cycles)and exceptional energy density(36.5 Wh kg^(−1)).This study provides a reliable biomimetic morphology design strategy for MnO_(2)cathodes,paving the way for the fabrication of high-performance Na-SCs. 展开更多
关键词 Biomimetic structure Coral-like mno_(2) Electrochemical phase reconstruction Nitrogen-doped carbon Sodium-ion supercapacitors
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Carbon dioxide plumes,pressure space and legacy well risk for Southern North Sea CO_(2) storage projects
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作者 Alexandra Smith Gary Hampson +1 位作者 Iman Rahimzadeh Kivi Sam Krevor 《Energy Geoscience》 2026年第1期16-28,共13页
Unsecured legacy wells pose significant risks to carbon capture and storage(CCS)as they present potential leakage pathways for stored CO_(2) to return to the atmosphere.In the UK,legacy wells must be assessed for a ca... Unsecured legacy wells pose significant risks to carbon capture and storage(CCS)as they present potential leakage pathways for stored CO_(2) to return to the atmosphere.In the UK,legacy wells must be assessed for a carbon storage permit to be granted and high-risk wells require costly remediation.We use a well risk assessment scheme to evaluate the risk of wells in the Southern North Sea.We then combine our well risk assessment with investigation using the analytical tool CO2BLOCK,which relies on a gravity current model to estimate pressure and plume migration distances.We evaluate the Viking,Camelot and Poseidon projects,which plan to inject CO_(2) into the depleted reservoirs of Southern North Sea gas fields.Carbon dioxide plumes are typically several kilometers wide,and it should be possible to avoid plume migration to high-risk legacy wells.In contrast,pressure fields produced by CO_(2) injection are tens of kilometers wide and low magnitude pressure increases frequently extend beyond the bounds of storage licence areas.The pressure fields encounter hundreds of wells and in the cases of the Camelot and Poseidon projects,interact with each other. 展开更多
关键词 CO_(2)storage carbon capture and storage(CCS) Pressure constraint Plume migration Legacy well
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Comparative Study of MnO_(2)and Fe_(2)O_(3)Composites on Toona ciliata-Derived Carbon for Sustainable Supercapacitor Applications
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作者 Dibyashree Shrestha 《Journal of Environmental & Earth Sciences》 2025年第7期240-259,共20页
Unmanaged wood waste,particularly in countries like Nepal,presents serious environmental concerns due to open burning and improper disposal,leading to carbon emissions,air pollution and land degradation.This study int... Unmanaged wood waste,particularly in countries like Nepal,presents serious environmental concerns due to open burning and improper disposal,leading to carbon emissions,air pollution and land degradation.This study introduces an environmentally sustainable strategy to upcycle Toona ciliata wood scrap—an abundant and underutilized lignocellulosic biomass—into high performance carbon electrodes for green energy storage applications.Activated carbon(TCWAC)was synthesized via single-step pyrolytic carbonization followed by phosphoric acid activation,yielding a material with high specific surface area,hierarchical porosity,and excellent electrical conductivity.Electrochemical measurements using a three-electrode configuration in 6 M KOH revealed optimized potential windows of -1.0 to -0.2 V(TCWAC),-1.2 to 0 V(TCWAC-Mn),and -1.15 to -0.4 V(TCWAC-Fe).TCWAC exhibited a specific capacitance of 156.3 Fg^(-1)at 1 Ag^(-1),with an energy density of 3.5 Whkg^(-1),and 80.2% capacity retention after 1000 charge-discharge cycles.Composites with MnO_(2)and Fe_(2)O_(3)were also evaluated.TWAC-Mn delivered 489.4 Fg^(-1),25.1 Whkg^(-1),and 99.1% retention,whereas,TWAC-Fe achieved 321.3 Fg^(-1),6.3 Whkg^(-1),and 90.3% retention.The superior performance of MnO_(2)is attributed to its multiple oxidation states,facilitating reversible faradaic redox and enhanced pseudocapacitance.This work offers the first direct,systematic comparison of MnO_(2)and Fe_(2)O_(3)composites on a common biomass-carbon matrix under identical synthesis and testing conditions.The finding provides mechanistic insight into charge storage behaviour and demonstrate a scalable route for converting biomass waste into sustainable electrode materials,contributing to cleaner energy solutions and improved biomass valorization. 展开更多
关键词 Toona ciliata Wood Scrap Activated carbon Electrodes SUPERCAPACITOR mno_(2)Composites Fe_(2)O_(3)Composites Sustainable Energy Storage
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基于卡尔曼滤波的城市近地面CO_(2)浓度时空变化特征
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作者 郭冠华 陈丽飞 +3 位作者 骆仁波 曹峥 吴志峰 陈颖彪 《生态学报》 北大核心 2026年第3期1524-1535,共12页
大气CO_(2)浓度的增加已成为无可争议的事实,在时空维度上获得足量的CO_(2)浓度监测数据,对准确把握城市碳排放特征并制定相应的减排措施具有至关重要的作用。在广州大学城内选择林荫大道、社区广场、茂密森林和繁忙路口四个典型景观类... 大气CO_(2)浓度的增加已成为无可争议的事实,在时空维度上获得足量的CO_(2)浓度监测数据,对准确把握城市碳排放特征并制定相应的减排措施具有至关重要的作用。在广州大学城内选择林荫大道、社区广场、茂密森林和繁忙路口四个典型景观类型,尝试结合卡尔曼滤波和物联网技术以提升低成本传感器监测CO_(2)浓度的精度和效率,开展城市近地面CO_(2)浓度时空变化的精细化分析。结果显示:(1)低成本传感器在相同环境下获取的原始CO_(2)浓度值一致性较低,F检验和t检验显示差异性明显,但经卡尔曼滤波处理后数据两种检验方法显示数据无差异,表明滤波后监测结果具有高度一致性;(2)林荫大道与社区广场、茂密森林与繁忙路口、林荫大道与繁忙路口之间的CO_(2)浓度差异非常显著,林荫大道CO_(2)浓度最低,平均值仅为456.74μmol/mol(±11.83μmol/mol),繁忙路口的CO_(2)浓度最高,平均浓度为467.32μmol/mol(±16.04μmol/mol);(3)不同景观之间的CO_(2)浓度变化规律昼夜差别明显,林荫大道与社区广场CO_(2)浓度差异主要发生在晚上(13.30μmol/mol),而白天的差异很小(3.53μmol/mol),此外,交通流量较大的繁忙路口在上午7至11时CO_(2)浓度最高,而下午时段与其它三种景观差别最大。研究成果可为有效解决CO_(2)浓度监测成本与精度之间的平衡问题提供了新的思路,并为快速高效提升碳排放监测能力提供了技术支撑。 展开更多
关键词 CO_(2)浓度 城市近地面 卡尔曼滤波 物联网 碳排放
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CO_(2)气氛条件下单基药的能量释放过程及规律研究
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作者 李成龙 丁亚军 肖忠良 《含能材料》 北大核心 2026年第2期122-129,共8页
针对发射药/超临界二氧化碳(SC-CO_(2))在弹射做功方面的应用潜力需求,通过与N_(2)环境对比开展了热分析、静态燃烧与密闭燃烧试验,研究了单基药在CO_(2)的热分解与燃烧特性。结果表明,CO_(2)环境明显抑制单基药热解过程,其活化能最大值... 针对发射药/超临界二氧化碳(SC-CO_(2))在弹射做功方面的应用潜力需求,通过与N_(2)环境对比开展了热分析、静态燃烧与密闭燃烧试验,研究了单基药在CO_(2)的热分解与燃烧特性。结果表明,CO_(2)环境明显抑制单基药热解过程,其活化能最大值较N_(2)环境升高15.53 kJ·mol^(-1);单基药在CO_(2)环境下燃烧时间显著延长,7 MPa时较N_(2)环境增加1729 ms,且SC-CO_(2)中单基药燃烧火焰呈现内白外淡红的特殊形貌;密闭燃烧时,液态CO_(2)相变吸热导致单基药点火延迟达12.20 ms,单基药在SC-CO_(2)环境下作用时间处于10^(-2) s量级。初始压力增加有助于提升单基药在SC-CO_(2)环境下能量释放速率。 展开更多
关键词 单基发射药 CO_(2)相变 能量释放 超临界二氧化碳(SC-CO_(2)) 火焰形貌
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区域汽车CO_(2)排放量估算与CO_(2)排放因子研究——以江苏省为例
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作者 郁建桥 周俐峻 刘海涛 《中国环境监测》 北大核心 2026年第1期135-143,共9页
基于保有量法估算了2022年江苏省汽车CO_(2)排放量,同时结合江苏省环境监测中心对省内生产和销售的重点车型的实际道路便携式排放测试系统(PEMS)排放测试结果,建立了江苏省本地化汽车CO_(2)排放因子模型。结果显示:从车辆类型层面来看,... 基于保有量法估算了2022年江苏省汽车CO_(2)排放量,同时结合江苏省环境监测中心对省内生产和销售的重点车型的实际道路便携式排放测试系统(PEMS)排放测试结果,建立了江苏省本地化汽车CO_(2)排放因子模型。结果显示:从车辆类型层面来看,小型汽油客车、重型柴油货车、轻型柴油货车分别以60.76%、27.57%、3.95%的碳排放贡献率占据前三;从排放标准层面来看,国五、国四、国六标准车辆分别以33.95%、28.25%、25.28%的碳排放贡献率占据前三;从地区层面来看,苏州、南京和无锡碳排放贡献率居于10%~21%区间,徐州、南通、常州、盐城碳排放贡献率居于6%~10%区间,其他城市处在4%左右。基于本研究建立的汽车CO_(2)排放因子模型估算得到的江苏省国六汽车碳排放总量,相比基于《大气污染物与温室气体融合排放清单编制技术指南(试行)》推荐值估算得到的碳排放总量上浮了5.3%。基于国六PEMS试验获取的绝大多数车型的CO_(2)平均排放因子要高于推荐值。不同汽车通过远程监控和PEMS试验两种方式获取的CO_(2)排放因子存在较大偏差,同一辆车的CO_(2)排放因子会受驾驶行为、车辆载荷及环境温度等因素变化的影响而出现偏差。 展开更多
关键词 江苏省 汽车 碳排放 CO_(2)排放因子
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活性炭负载纳米铁材料对人工湿地脱氮和N_(2)O排放的影响
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作者 郝桂珍 范慧双 +2 位作者 张南南 李振河 徐利 《环境工程技术学报》 北大核心 2026年第1期148-157,共10页
人工湿地是污水处理厂尾水深度处理的有效手段,但尾水中碳氮比(C/N)较低且化学需氧量(COD)难以被利用,导致传统人工湿地处理该类尾水时存在硝化、反硝化反应不完全的问题,且有大量N_(2)O气体(温室气体)产生并逸出至大气,生态效益欠佳。... 人工湿地是污水处理厂尾水深度处理的有效手段,但尾水中碳氮比(C/N)较低且化学需氧量(COD)难以被利用,导致传统人工湿地处理该类尾水时存在硝化、反硝化反应不完全的问题,且有大量N_(2)O气体(温室气体)产生并逸出至大气,生态效益欠佳。针对该问题,制备了活性炭负载纳米铁材料Fe-AC,设计构建了三组人工湿地(CW1、CW2、CW3),分别填加纯砾石(空白对照)、砾石+3%Fe-AC、砾石+8%Fe-AC,模拟污水处理厂尾水的低C/N水质,利用铁与碳两极间的电位差形成的微电解原理强化人工湿地的脱氮过程,探究不同Fe-AC投加比例对人工湿地脱氮和N_(2)O减排的影响,并分析其影响机制。结果表明:Fe-AC在人工湿地中可自发形成原电池释放电子和[H],作为电子供体促进氮的转化和提高微生物的活性。在人工湿地模拟进水COD 28 mg/L、TN 18 mg/L,即C/N=1.5的条件下,CW1、CW2、CW3的出水COD分别稳定在6.0、4.5、4.0 mg/L,去除率达到72%、83%、85%;总氮(TN)浓度分别稳定在14.0、0.5、0.4 mg/L,去除率达到22%、97%、97%,加入Fe-AC的人工湿地对COD和TN的去除效果显著;CW1、CW2和CW3的N_(2)O排放量分别为1 330.87、629.86、576.49μg/(m^(2)·h),与空白对照组(CW1)相比,CW2和CW3对N_(2)O的减排率分别达到52.72%和56.52%,加入Fe-AC对人工湿地N_(2)O的减排效果明显;加入Fe-AC的CW2和CW3内部拟杆菌门和甲基营养型菌属的丰度明显提高,其他与反硝化和有机物降解有关的功能菌也得到筛选和优化。综合三组人工湿地的运行效果,CW2中加入3%的Fe-AC即可满足对人工湿地脱氮效果的提升和N_(2)O气体的减排,比CW3中8%的Fe-AC更加经济合理。 展开更多
关键词 人工湿地 铁碳微电解 低碳氮比 N_(2)O 反硝化
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深部不可采煤层CO_(2)可循环利用的CCCUS技术构想
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作者 梁卫国 阎纪伟 +3 位作者 朱帝杰 郭红光 公丽 牛栋 《煤田地质与勘探》 北大核心 2026年第1期80-93,共14页
【背景】我国深部不可采煤层资源量大,可封存的CO_(2)量十分可观,但简单地将CO_(2)封存在深部煤层,不仅需投入较高经济成本,也会造成深部煤炭资源的浪费,而利用微生物技术将深部不可采煤层封存的CO_(2)转化为CH_(4),可实现CCUS的反复循... 【背景】我国深部不可采煤层资源量大,可封存的CO_(2)量十分可观,但简单地将CO_(2)封存在深部煤层,不仅需投入较高经济成本,也会造成深部煤炭资源的浪费,而利用微生物技术将深部不可采煤层封存的CO_(2)转化为CH_(4),可实现CCUS的反复循环利用(circular carbon capture utilization and storage,CCCUS),其对资源与环境可持续发展具有十分重要的意义。【方法】深部不可采煤层中CCCUS技术思路是通过实验研究、理论分析与工程模拟等手段,揭示深部不可采煤层CO_(2)高效致裂增渗与驱替置换CH_(4)机理,研究深部不可采煤层复杂缝网建造与高效驱替CH_(4)控制机理,研发高温高压条件下深部煤层中液化秸秆高效制氢方法,提出深部煤层CO_(2)与液化秸秆生物转化CH_(4)技术路线,最终计算CO_(2)循环利用的经济性。【结果和结论】CO_(2)致裂深部煤层能够形成更加复杂的裂缝网络,增加微纳尺度孔裂隙的连通性,使甲烷的驱替效率提升,微生物能够将CO_(2)高效转化成CH_(4),提高了深部煤层中CO_(2)的转化效率。探究了CO_(2)致裂-驱替-生物转化CH_(4)作用下、煤储层孔裂隙结构演化规律,完善了深部不可采煤层CCCUS煤体结构演化与流体运移耦合作用理论,探索CCCUS对围岩稳定性和地质环境的影响规律及控制机制,丰富发展演变多孔介质传输多场耦合作用理论,获得了CO_(2)可循环利用的技术可靠性,定量表征了其经济性指标,为深部不可采煤层CCCUS创新技术实施提供重要理论基础,有力支撑我国能源革命与“双碳”目标实现。 展开更多
关键词 深部 不可采煤层 CO_(2)致裂-驱替-生物转化CH_(4) CCCUS理论 围岩稳定 地质环境
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ScCO_(2)作用下含水性对煤化学组成和结构的影响
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作者 张小东 孙泽源 +3 位作者 张瑜 张硕 李勇 杜志刚 《煤炭学报》 北大核心 2026年第1期678-688,共11页
深部煤层封存CO_(2)过程中,CO_(2)常处于超临界状态(ScCO_(2)),与水、煤存在复杂的物理化学反应,促使煤的化学组成和结构发生变化,进而影响CO_(2)地质封存的效果。为研究不同含水条件下ScCO_(2)对煤化学组成和结构的影响,以焦煤为研究对... 深部煤层封存CO_(2)过程中,CO_(2)常处于超临界状态(ScCO_(2)),与水、煤存在复杂的物理化学反应,促使煤的化学组成和结构发生变化,进而影响CO_(2)地质封存的效果。为研究不同含水条件下ScCO_(2)对煤化学组成和结构的影响,以焦煤为研究对象,开展了不同含水率下ScCO_(2)-煤反应试验,对比反应前后煤的化学组成和结构的差异,探讨含水性对ScCO_(2)-煤反应的影响机制。结果表明:ScCO_(2)对煤中碳酸盐矿物溶解性较强,其次是黏土矿物,随含水率增大,反应残余煤中碳酸盐矿物的质量分数先增后减;较大含水率时,ScCO_(2)与煤中碳酸盐矿物的反应强于黏土矿物,故碳酸盐矿物减少更为显著。ScCO_(2)与H_(2)O对煤化学结构中含氧官能团的影响较大,而对芳香烃、脂肪烃的影响较小;ScCO_(2)导致煤中含氧官能团含量降低,随水分增加,富氧指数(I_(2))显著增大,而富氢指数(I_(1))、芳香度(I_(3))和缩聚度(I_(4))变化较小。ScCO_(2)的溶胀作用,使芳香层间距(d_(002))增大,同时延展度(L_(a))、芳香层数(N_(c))、芳碳率(f_(a)')和脂碳率(f_(al))均减小;随水分增加,d_(002)、L_(a)和f_(a)'先增后减,L_(c)、N_(c)和f_(al)的变化趋势则相反。水分在一定程度上可提升ScCO_(2)对煤低分子化合物的萃取效果,促进煤芳香结构无序化,但随水分含量进一步增大,水分将会阻止CO_(2)进入煤体,煤中碳酸盐矿物先一步与ScCO_(2)反应,进而弱化ScCO_(2)对煤有机质的萃取效应,表现为空气干燥基态时ScCO_(2)对煤有机质的溶出量和化学结构破坏的影响更明显,饱水态时矿物质的溶蚀更显著。 展开更多
关键词 ScCO_(2) 含水率 矿物组成 官能团 化学结构
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CeO_(2)@聚丙烯腈炭球的制备及其光催化还原CO_(2)性能研究
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作者 梅艳 王荣羡 张长明 《现代化工》 北大核心 2026年第3期123-129,共7页
光催化还原二氧化碳是克服能源危机和环境问题的有效路径之一。采用悬浮聚合法制备了一系列内嵌CeO_(2)的聚丙烯腈基炭球(CeO_(2)@PANACSs)复合催化剂,并利用粉末X射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、氮气吸附... 光催化还原二氧化碳是克服能源危机和环境问题的有效路径之一。采用悬浮聚合法制备了一系列内嵌CeO_(2)的聚丙烯腈基炭球(CeO_(2)@PANACSs)复合催化剂,并利用粉末X射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、氮气吸附-脱附分析(N_(2)吸附-脱附)、紫外-可见-近红外漫反射光谱(UV-Vis DRS)、光致发光光谱(PL)、原位红外等表征手段对其进行表征。结果表明,在可见光照射下,10%CeO_(2)@PANACSs复合催化剂光催化CO_(2)还原为CO的产量最大值为210.65μmol/g,分别为纯CeO_(2)和PANACSs的1.83倍和17.42倍,主要归因于CeO_(2)和PANACSs的协同作用,不仅增强了CO_(2)吸附和活化能力,而且提供了丰富的反应位点和电荷转移通道,有效提高光生电子-空穴对的分离。 展开更多
关键词 聚丙烯腈 活性炭球 氮物种 CeO_(2) 光催化 CO_(2)还原
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热处理过程中MnO-SiO_(2)-Al_(2)O_(3)基玻璃态夹杂物的结晶行为 被引量:2
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作者 雷旭博 徐琦 +2 位作者 Rodrigue Ameal Muvuny 黄灵杰 李建立 《钢铁》 北大核心 2025年第1期66-74,共9页
结晶态夹杂物相较于玻璃态夹杂物具有更高的硬度,对钢材的轧制及后续加工过程危害更大。为了进一步明确热处理过程中MnO-SiO_(2)-Al_(2)O_(3)基玻璃态夹杂物的结晶行为,在实验室进行了一系列不同MgO含量合成夹杂物的等温结晶试验,利用X... 结晶态夹杂物相较于玻璃态夹杂物具有更高的硬度,对钢材的轧制及后续加工过程危害更大。为了进一步明确热处理过程中MnO-SiO_(2)-Al_(2)O_(3)基玻璃态夹杂物的结晶行为,在实验室进行了一系列不同MgO含量合成夹杂物的等温结晶试验,利用X射线衍射仪与场发射扫描电子显微镜对热处理后夹杂物的晶相组成以及微观形貌进行分析。结果表明,热处理温度为900℃时,w(MgO)=0、w(MgO)=10%合成夹杂物仍为玻璃态,w(MgO)=20%合成夹杂物在其表面形成MgSiO_(3)和MgMnSi_(2)O_(6)晶相;热处理温度为1000℃时,除w(MgO)=0外合成夹杂物均形成晶相,w(MgO)=10%合成夹杂物中形成了MgSiO_(3)和MgMnSi_(2)O_(6)晶相,w(MgO)=20%合成夹杂物中晶相以MgSiO_(3)和MgMnSi_(2)O_(6)为主,此外还存在少量Mg_(2)SiO_(4)晶相;热处理温度为1100℃时,SiO_(2)、Mn_(3)Al_(2)Si_(3)O_(12)晶相在w(MgO)=0合成夹杂物中析出,w(MgO)=10%、w(MgO)=20%合成夹杂物中主晶相仍为MgSiO_(3)和MgMnSi_(2)O_(6)。热处理过程玻璃态夹杂物中元素扩散富集,最先在夹杂物表面形成晶相,然后向内部生长并伴随着内部晶相的形成与长大聚集,最终向完全结晶态夹杂物转变。随着热处理温度的升高,固态夹杂物中元素的扩散能力增强,晶相形成速度加快,夹杂物的结晶比例上升;随着MgO含量的增加,MnO-SiO_(2)-Al_(2)O_(3)基夹杂物结晶能力增强,玻璃态夹杂物可以在较低的温度发生结晶转变,而且在更高的温度下更容易达到完全结晶;而热处理时间的增加则会使得晶相进一步生长聚集。因此,热处理温度的升高、热处理时间的增加以及夹杂物MgO含量的增加都会促进玻璃态夹杂物向结晶态夹杂物的转变。 展开更多
关键词 结晶 夹杂物 固态转变 热处理 MgO 硅锰脱氧钢 玻璃态 mno-SiO_(2)-Al_(2)O_(3)
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边水碳酸盐岩气藏注CO_(2)提采及封存潜力预测
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作者 汤勇 陈樟池 +3 位作者 何佑伟 秦佳正 唐良睿 宋俊杰 《工程科学学报》 北大核心 2026年第2期251-261,共11页
目前注CO_(2)提高采收率技术已成熟应用于油藏,但国内有关边水碳酸盐岩气藏注CO_(2)驱及封存协同研究较少.为明确边水碳酸盐岩气藏注CO_(2)驱提高采收率及CO_(2)封存机理,以M边水碳酸盐岩气藏为例,开展了气藏注CO_(2)驱–封存协同数值模... 目前注CO_(2)提高采收率技术已成熟应用于油藏,但国内有关边水碳酸盐岩气藏注CO_(2)驱及封存协同研究较少.为明确边水碳酸盐岩气藏注CO_(2)驱提高采收率及CO_(2)封存机理,以M边水碳酸盐岩气藏为例,开展了气藏注CO_(2)驱–封存协同数值模拟,优选了CO_(2)注入井,进行了注CO_(2)驱方案优化设计,基于最优方案完成了生产及封存预测.研究结果表明:(1)M气藏最优开发方案为三注七采,全区日注气量为22.5×10^(4) m^(3)·d^(–1),气驱阶段注入量为16×10~8 m^(3),关井时机为生产井中CO_(2)摩尔分数达10%~30%,全区日产气量为22.5×10^(4) m^(3)·d^(–1),最优方案气驱19.5年,相对于衰竭开发预计提高采收率7.89%,最终采收率达到84.5%.(2)CO_(2)经注入后,由注入井向四周扩散,由高部位向低部位移动,使地层中气体密度增大,注入井附近含水饱和度呈降低趋势,气水界面明显下降(50~100 m),能有效抑制边水水侵.(3)最优开发方案下的CO_(2)有效封存量为14.29×10^(6) t,其中超临界封存量、溶解封存量、矿化封存量分别为13.56×10^(6)、0.53×10^(6)和0.20×10^(6) t,数值模拟结果与数学模型预测结果误差较小,M气藏注CO_(2)驱开发与封存潜力巨大.研究成果对边水碳酸盐岩气藏的高效开发具有科学指导意义,为碳减排技术应用提供了支撑. 展开更多
关键词 边水碳酸盐岩气藏 CO_(2)驱 CO_(2)封存 提高采收率 数值模拟
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