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Recent advances of Ru-assisted semiconductor in photocatalytic N_(2) reduction to produce ammonia
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作者 ZHAO Zehui REN Guangmin MENG Xiangchao 《燃料化学学报(中英文)》 北大核心 2025年第3期301-322,共22页
In recent years,photocatalytic N_(2) reduction for ammonia synthesis at room temperature and atmospheric pressure has gradually become a research hotspot,exhibiting extremely high development potential.However,the low... In recent years,photocatalytic N_(2) reduction for ammonia synthesis at room temperature and atmospheric pressure has gradually become a research hotspot,exhibiting extremely high development potential.However,the low photogenerated charge separation efficiency and the lack of effective active sites seriously constrain the reaction efficiencies of semiconductor photocatalysts for N_(2) reduction of ammonia synthesis.Therefore,the rational design of catalytic materials is the key to enhance the photocatalytic N_(2) reduction reaction of ammonia synthesis.Transition metal Ru as the active center not only accelerates the adsorption and activation of N_(2) molecules,but also has good selectivity for N_(2) reduction.Moreover,the interaction between the metal and the support can effectively regulate the electronic structure of the active site,accelerate the photogenerated electron transfer,and significantly enhance the photocatalytic activity.Based on this,this review systematically investigates the Ru co-semiconductors to realize efficient photocatalytic N_(2) reduction for ammonia synthesis,and introduces its basic principles.Specifically,the Ru co-semiconductor photocatalytic material systems are introduced,such as TiO2-based,g-C3N4-based,and metal oxide materials,including the design of catalysts,crystal structures,and other characteristics.In addition,the modification strategies of photocatalytic N_(2) reduction ammonia synthesis materials are also presented,including loading/doping,defect engineering,construction of heterojunctions,and crystal surface modulation.Furthermore,the progress and shortcomings of the application of Ru co-semiconductors in these processes are summarized and comprehensively discussed,and the future outlook of Ru co-semiconductors in photocatalytic N_(2) reduction ammonia synthesis applications is proposed. 展开更多
关键词 PHOTOCATALYSIS N_(2)reduction ammonia synthesis RU
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Ambient CO_(2) Capture and Valorization Enabled by Tandem Electrolysis Using Solid-State Electrolyte Reactor
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作者 Yan-Bo Hua Bao-Xin Ni Kun Jiang 《电化学(中英文)》 北大核心 2025年第6期38-50,共13页
Electrocatalytic carbon dioxide reduction is a promising technology for addressing global energy and environmental crises. However, its practical application faces two critical challenges: the complex and energy-inten... Electrocatalytic carbon dioxide reduction is a promising technology for addressing global energy and environmental crises. However, its practical application faces two critical challenges: the complex and energy-intensive process of separat-ing mixed reduction products and the economic viability of the carbon sources (reactants) used. To tackle these challenges simultaneously, solid-state electrolyte (SSE) reactors are emerging as a promising solution. In this review, we focus on the feasibility of applying SSE for tandem electrochemical CO_(2) capture and conversion. The configurations and fundamental principles of SSE reactors are first discussed, followed by an introduction to its applications in these two specific areas, along with case studies on the implementation of tandem electrolysis. In comparison to conventional H-type cell, flow cell and membrane electrode assembly cell reactors, SSE reactors incorporate gas diffusion electrodes and utilize a solid electro-lyte layer positioned between an anion exchange membrane (AEM) and a cation exchange membrane (CEM). A key inno-vation of this design is the sandwiched SSE layer, which enhances efficient ion transport and facilitates continuous product extraction through a stream of deionized water or humidified nitrogen, effectively separating ion conduction from product collection. During electrolysis, driven by an electric field and concentration gradient, electrochemically generated ions (e.g., HCOO- and CH3COO-) migrate through the AEM into the SSE layer, while protons produced from water oxidation at the anode traverse the CEM into the central chamber to maintain charge balance. Targeted products like HCOOH can form in the middle layer through ionic recombination and are efficiently carried away by the flowing medium through the porous SSE layer, in the absence of electrolyte salt impurities. As CO_(2)RR can generate a series of liquid products, advancements in catalyst discovery over the past several years have facilitated the industrial application of SSE for more efficient chemicals production. Also noteworthy, the cathode reduction reaction can readily consume protons from water, creating a highly al-kaline local environment. SSE reactors are thereby employed to capture acidic CO_(2), forming CO_(3)^(2-) from various gas sources including flue gases. Driven by the electric field, the formed CO_(3)^(2-) can traverse through the AEM and react with protons originating from the anode, thereby regenerating CO_(2). This CO_(2) can then be collected and utilized as a low-cost feedstock for downstream CO_(2) electrolysis. Based on this principle, several cell configurations have been proposed to enhance CO_(2) capture from diverse gas sources. Through the collaboration of two SSE units, tandem electrochemical CO_(2) capture and con-version has been successfully implemented. Finally, we offer insights into the future development of SSE reactors for prac-tical applications aimed at achieving carbon neutrality. We recommend that greater attention be focused on specific aspects, including the fundamental physicochemical properties of the SSE layer, the electrochemical engineering perspective related to ion and species fluxes and selectivity, and the systematic pairing of consecutive CO_(2) capture and conversion units. These efforts aim to further enhance the practical application of SSE reactors within the broader electrochemistry community. 展开更多
关键词 ELECTROCATALYSIS ELECTROLYSIS CO_(2)capture CO_(2)reduction solid-state electrolyte reactor
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High temperature shock synthesis of Ni-N-C single-atom catalysts for efficient CO_(2) electroreduction to CO
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作者 PANG Peiqi XU Changjian +5 位作者 LI Ruizhu GAO Na DU Xianlong LI Tao WANG Jianqiang XIAO Guoping 《燃料化学学报(中英文)》 北大核心 2025年第8期1162-1172,共11页
Electrocatalytic reduction of carbon dioxide(CO_(2))to carbon monoxide(CO)is an effective strategy to achieve carbon neutrality.High selective and low-cost catalysts for the electrocatalytic reduction of CO_(2)have re... Electrocatalytic reduction of carbon dioxide(CO_(2))to carbon monoxide(CO)is an effective strategy to achieve carbon neutrality.High selective and low-cost catalysts for the electrocatalytic reduction of CO_(2)have received increasing attention.In contrast to the conventional tube furnace method,the high-temperature shock(HTS)method enables ultra-fast thermal processing,superior atomic efficiency,and a streamlined synthesis protocol,offering a simplified method for the preparation of high-performance single-atom catalysts(SACs).The reports have shown that nickel-based SACs can be synthesized quickly and conveniently using the HTS method,making their application in CO_(2)reduction reactions(CO_(2)RR)a viable and promising avenue for further exploration.In this study,the effect of heating temperature,metal loading and different nitrogen(N)sources on the catalyst morphology,coordination environment and electrocatalytic performance were investigated.Under optimal conditions,0.05Ni-DCD-C-1050 showed excellent performance in reducing CO_(2)to CO,with CO selectivity close to 100%(−0.7 to−1.0 V vs RHE)and current density as high as 130 mA/cm^(2)(−1.1 V vs RHE)in a flow cell under alkaline environment. 展开更多
关键词 CO_(2)electrocatalytic reduction high temperature shock method single atom catalysts coordination
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Advances in Sn-based electrocatalysts for selective reduction of CO_(2) to formate
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作者 ZHANG Ying-ping LI Wei-jie +1 位作者 HAN Chao LIU Yong 《Journal of Central South University》 2025年第5期1581-1601,共21页
The selective reduction of carbon dioxide(CO_(2))into high-value-added chemicals is one of the most effective means to solve the current energy and environmental problems,which could realize the utilization of CO_(2) ... The selective reduction of carbon dioxide(CO_(2))into high-value-added chemicals is one of the most effective means to solve the current energy and environmental problems,which could realize the utilization of CO_(2) and promote the balance of the carbon cycle.Formate is one of the most economical and practical products of all the electrochemical CO_(2) reduction products.Among the many metal-based electrocatalysts that can convert CO_(2) into formate,Sn-based catalysts have received a lot of attention because of their low-cost,non-toxic characteristics and high selectivity for formate.In this article,the most recent development of Sn-based electrocatalysts is comprehensively summarized by giving examples,which are mainly divided into monometallic Sn,alloyed Sn,Sn-based compounds and Sn composite catalysts.Finally,the current performance enhancement strategies and future directions of the field are summarized. 展开更多
关键词 CO_(2)electrochemical reduction Sn-based electrocatalysts FORMATE progress and perspective selective reduction
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CuBi@Cu⁃MOF复合材料电催化CO_(2)还原至HCOOH的性能 被引量:1
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作者 王芳芳 陈佳琪 孙为银 《无机化学学报》 北大核心 2025年第1期97-104,共8页
通过直接搅拌法制备了2种CuBi双钙钛矿材料修饰的Cu金属有机骨架(CuBi@Cu‑MOF),并系统评估了2种材料作为电催化剂在碱性体系中对CO_(2)还原反应产物的选择性和法拉第效率(FE)。结果表明,表面改性后的CuBi@Cu‑MOF催化剂表现出明显提升的H... 通过直接搅拌法制备了2种CuBi双钙钛矿材料修饰的Cu金属有机骨架(CuBi@Cu‑MOF),并系统评估了2种材料作为电催化剂在碱性体系中对CO_(2)还原反应产物的选择性和法拉第效率(FE)。结果表明,表面改性后的CuBi@Cu‑MOF催化剂表现出明显提升的HCOOH选择性,其对应的最高FE可达56%,优于Cu‑MOF催化剂本身的FE(15%)。研究结果显示,表面改性降低了电荷转移阻力,增加了活性位点数量,从而提高了电催化活性。 展开更多
关键词 Cu金属有机骨架 CuBi双钙钛矿 电催化 CO_(2)还原
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Ce(SO_(4))_(2)改性对V-W/Ti催化剂抗碱土中毒性能提升的影响
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作者 费亦凡 仲兆平 +1 位作者 周峻伍 陈宏 《现代化工》 北大核心 2025年第4期153-159,共7页
为提升钒钨钛(V_(2)O_(5)-WO_(3)-TiO_(2))催化剂抵御碱土金属中毒耐受性、拓宽反应温度窗口,采用等体积浸渍法制备了一系列Ce(SO_(4))_(2)-V_(2)O_(5)-WO_(3)-TiO_(2)(简称Ce-V-W-Ti)催化剂,考察了Ce(SO_(4))_(2)添加量对催化剂脱硝性... 为提升钒钨钛(V_(2)O_(5)-WO_(3)-TiO_(2))催化剂抵御碱土金属中毒耐受性、拓宽反应温度窗口,采用等体积浸渍法制备了一系列Ce(SO_(4))_(2)-V_(2)O_(5)-WO_(3)-TiO_(2)(简称Ce-V-W-Ti)催化剂,考察了Ce(SO_(4))_(2)添加量对催化剂脱硝性能的影响,并通过N_(2)(吸附-脱附、XRD、XPS、NH_(3)-TPD对催化剂进行表征分析,使用密度泛函理论计算进一步探究了催化剂抵御碱土金属中毒机理。结果表明,Ce(SO_(4))_(2)的掺杂提高了表面化学吸附氧的比例,促进了V^(4+)/V^(5+)、Ce^(3+)/Ce^(4+)间的氧化还原过程,增加了催化剂表面的弱酸位点和强酸位点。Ce_(1)V_(1)W_(8)/90Ti改性效果最佳,在200^400℃的脱硝性能均明显优于V_(1)W_(8)/91Ti,在300℃、n(CaO)/n(V_(2)O_(5))=3的反应条件下,NO_(x)脱除率由46.07%增至63.71%,在350℃、含有SO_(2)的气氛中,NO_(x)脱除率始终保持97%以上。 展开更多
关键词 选择催化还原 Ce(so_(4))_(2)改性 活性 耐碱性 量子化学计算
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Enhanced photocatalytic CO_(2)reduction performance in Nidoped perovskite nanocrystals controlled by magnetic fields
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作者 Zhiwen Zhang Haoran Zhang +2 位作者 Huang Zhou Yu Zhang Yuen Wu 《中国科学技术大学学报》 CAS CSCD 北大核心 2024年第9期8-15,68,共9页
In recent years,magnetic fields have been widely applied in catalysis to increase the performance of electrocatalysis,photocatalysis,and thermocatalysis through an important noncontact way.This work demonstrated that ... In recent years,magnetic fields have been widely applied in catalysis to increase the performance of electrocatalysis,photocatalysis,and thermocatalysis through an important noncontact way.This work demonstrated that doping CsPbCl_(3) halide perovskite nanocrystals with nickel ions(Ni^(2+))and applying an external magnetic field can significantly enhance the performance of the photocatalytic carbon dioxide reduction reaction(CO_(2)RR).Compared with its counterpart,Ni-doped CsPbCl_(3) exhibits a sixfold increase in CO_(2)RR efficiency under a 500 mT magnetic field.Insights into the mechanism of this enhancement effect were obtained through photogenerated current density measurements and X-ray magnetic circular dichroism.The results illustrate that the significant enhancement in catalytic performance by the magnetic field is attributed to the synergistic effects of magnetic element doping and the external magnetic field,leading to reduced electron‒hole recombination and extended carrier lifetimes.This study provides an effective strategy for enhancing the efficiency of the photocatalytic CO_(2)RR by manipulating spin-polarized electrons in photocatalytic semiconductors via a noncontact external magnetic field. 展开更多
关键词 PHOTOCATALYSIS carbon dioxide reduction reaction(CO_(2)RR) PEROVSKITE spin polarization magnetic field
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Extraction of valuable metals from low-grade nickeliferous laterite ore by reduction roasting-ammonia leaching method 被引量:13
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作者 陈胜利 郭学益 +1 位作者 石文堂 李栋 《Journal of Central South University》 SCIE EI CAS 2010年第4期765-769,共5页
Nickel and cobalt were extracted from low-grade nickeliferous laterite ore using a reduction roasting-ammonia leaching method.The reduction roasting-ammonia leaching experimental tests were chiefly introduced,by which... Nickel and cobalt were extracted from low-grade nickeliferous laterite ore using a reduction roasting-ammonia leaching method.The reduction roasting-ammonia leaching experimental tests were chiefly introduced,by which fine coal was used as a reductant.The results show that the optimum process conditions are confirmed as follows:in reduction roasting process,the mass fraction of reductant in the ore is 10%,roasting time is 120 min,roasting temperature is 1 023-1 073 K;in ammonia leaching process,the liquid-to-solid ratio is 4:1(mL/g),leaching temperature is 313 K,leaching time is 120 min,and concentration ratio of NH3 to CO2 is 90 g/L:60 g/L.Under the optimum conditions,leaching efficiencies of nickel and cobalt are 86.25% and 60.84%,respectively.Therefore,nickel and cobalt can be effectively reclaimed,and the leaching agent can be also recycled at room temperature and normal pressure. 展开更多
关键词 low-grade nickeliferous laterite ore nickel COBALT reduction roasting ammonia leaching EXTRACTION
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Selective catalytic reduction of NO with NH_3 over sol-gel-derived CuO-CeO_2-MnO_x/γ-Al_2O_3 catalysts 被引量:2
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作者 赵清森 向军 +3 位作者 孙路石 石金明 苏胜 胡松 《Journal of Central South University》 SCIE EI CAS 2009年第3期513-519,共7页
Granular CuO-CeO2-MnOx/γ-Al2O3 catalysts were synthesized by the sol-gel method. The performance of the CuO-CeO2-MnOx/γ-Al2O3 catalysts for the selective catalytic reduction (SCR) was studied in a fixed bed system. ... Granular CuO-CeO2-MnOx/γ-Al2O3 catalysts were synthesized by the sol-gel method. The performance of the CuO-CeO2-MnOx/γ-Al2O3 catalysts for the selective catalytic reduction (SCR) was studied in a fixed bed system. Preliminary tests were carried out to analyze the behavior of NH3 and NO over catalyst in the presence of oxygen. The optimum temperature range for SCR over the CuO-CeO2-MnOx/γ-Al2O3 catalysts is 300-400 ℃ . The catalysts maintain nearly 100% NO conversion at 350 ℃. The NH3 oxidation experiments show that both NO and N2O are produced gradually with the increase of temperature. The catalysts in this experiment have a stronger oxidation property on NH3, which improves the denitrification activity at low temperature. The over-oxidation of NH3 at high temperature is the main cause leading to a decrease in the NO conversion. The NH3 and NO desorption experiments show that NH3 and NO can be adsorbed on CuO-CeO2-MnOx/γ-Al2O3 granular catalysts. The transient response of NH3 and NO indicates that the SCR reaction proceeds in accordance with the Eley-Rideal mechanism. The adsorbed NO has little influence on the denitrification activity in SCR process. 展开更多
关键词 sol-gel method CuO-CeO2-MnOx/γ-Al2O3 NH3 NO CONVERSION selective catalytic reduction (SCR)
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Reduction mechanism of Fe2O3-Cr2O3-NiO system by carbon
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作者 张延玲 郭文明 +1 位作者 刘洋 贾昕磊 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第6期1318-1325,共8页
Isothermal experiments on the reduction of Fe_2O_3-Cr_2O_3-NiO(molar ratio of Fe-to-Cr-to-Ni is 3:2:2)by graphite were carried out at 1350–1550°C,and effects of various factors on reduction degree were studied.T... Isothermal experiments on the reduction of Fe_2O_3-Cr_2O_3-NiO(molar ratio of Fe-to-Cr-to-Ni is 3:2:2)by graphite were carried out at 1350–1550°C,and effects of various factors on reduction degree were studied.The results show that the reaction rate of the Fe_2O_3-Cr_2O_3-NiO system is fast during the initial period(reduction degree,α<38%),and then the rate decreases until the end of the reduction.Factors such as temperature,carbon content,sample size have a more significant effect during the final stage(α>38%).The metallic product formed at the initial stage(a Fe-Ni alloy)greatly promotes the reduction of Cr2O3 at the final stage.Further,during the reduction of Fe_2O_3-Cr_2O_3-NiO by carbon,interfacial reaction is the rate-controlling step and g(α)=1-(1-α)0.5 is the reaction mechanism for the initial stage,whereas two-dimensional diffusion is the rate-controlling step and f(α)=α+(1-α)ln(1-α)is the reaction mechanism for the final stage.The apparent activation energies are 55.43 k J/mol and 174.54 k J/mol for the initial and the final stages,respectively. 展开更多
关键词 Fe2O3-Cr2O3-NiO system isothermal reduction reduction degree KINETICS reaction mechanism
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SRB还原SO_(4)^(2-)影响因素的广义灰色关联分析 被引量:2
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作者 邓奇根 姚萌萌 +2 位作者 李帅 刘朝思 张哲铖 《中国安全生产科学技术》 CAS CSCD 北大核心 2024年第1期127-132,共6页
为探究影响硫酸盐还原菌(sulfate-reducing bacteria,SRB)降解污泥还原SO_(4)^(2-)的主要因素,构建广义灰色关联度评价模型,并对变量的重要度进行排序。研究结果表明:在一定条件下,SO_(4)^(2-)还原率随温度及初始pH值的上升呈现先增长... 为探究影响硫酸盐还原菌(sulfate-reducing bacteria,SRB)降解污泥还原SO_(4)^(2-)的主要因素,构建广义灰色关联度评价模型,并对变量的重要度进行排序。研究结果表明:在一定条件下,SO_(4)^(2-)还原率随温度及初始pH值的上升呈现先增长后降低的趋势,随氧化还原电位的上升呈现不断降低的趋势;温度,初始pH,氧化还原电位的综合关联度分别为0.690,0.755,0.537,影响SO_(4)^(2-)还原率因素大小顺序为初始pH>温度>氧化还原电位。研究结果可为污泥处理过程中控制硫化氢的释放提供理论支持,并为避免或减少污泥产硫化氢导致的人员伤亡和财产损失提供思路。 展开更多
关键词 降解 污泥 so_(4)^(2-)还原率 硫化氢
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胺吸收体系中CO_(2)催化解吸再生技术的研究进展 被引量:6
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作者 王宁 陆诗建 +4 位作者 刘玲 梁静 刘苗苗 孙梦圆 康国俊 《化工进展》 北大核心 2025年第1期445-464,共20页
人类工业活动造成大气中CO_(2)含量逐渐增加,形成温室效应,导致全球气候异常。碳捕集、利用与封存(CCUS)技术,尤其是CO_(2)化学吸收过程,是实现大规模CO_(2)减排和遏制全球气候变化的最有效的方法之一。然而,由于CO_(2)捕集技术的高能... 人类工业活动造成大气中CO_(2)含量逐渐增加,形成温室效应,导致全球气候异常。碳捕集、利用与封存(CCUS)技术,尤其是CO_(2)化学吸收过程,是实现大规模CO_(2)减排和遏制全球气候变化的最有效的方法之一。然而,由于CO_(2)捕集技术的高能耗高成本是导致CCUS技术无法大规模推广和商业化应用的瓶颈之一。近年来,胺吸收剂催化再生技术作为一种具有大规模应用潜力的CO_(2)捕集节能新技术引起了国内外研究者的广泛关注。本文综述了胺吸收体系中CO_(2)催化解吸再生技术的研究现状,详细介绍了非均相催化剂的种类、特点、优缺点和面临的挑战,阐述了胺溶液中CO_(2)催化解吸反应机理以及Lewis酸、Br?nsted酸和碱性活性位点等在催化反应过程中的作用机制,总结了影响催化剂解吸再生性能的主要因素。最后,全面分析了催化解吸再生技术用于燃烧后CO_(2)捕集的现状,并对未来的研究趋势进行了展望。 展开更多
关键词 燃后碳捕集 化学吸收法 催化再生技术 非均相催化剂 低能耗
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CO_(2)-ESGR技术全生命周期碳排放分析 被引量:1
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作者 周军平 董志强 +5 位作者 鲜学福 旷年杰 徐程浩 彭毅凡 李森圣 薛元杰 《天然气工业》 北大核心 2025年第1期195-206,共12页
在页岩气井开采后期,将CO_(2)注入页岩气藏可在提高页岩气采收率的同时实现CO_(2)地质封存(CO_(2)-ESGR),但目前对于CO_(2)-ESGR技术减碳潜力尚缺乏从全生命周期角度进行的研究。为此,分别以重庆市双槐电厂、涪陵页岩气田作为CO_(2)源和... 在页岩气井开采后期,将CO_(2)注入页岩气藏可在提高页岩气采收率的同时实现CO_(2)地质封存(CO_(2)-ESGR),但目前对于CO_(2)-ESGR技术减碳潜力尚缺乏从全生命周期角度进行的研究。为此,分别以重庆市双槐电厂、涪陵页岩气田作为CO_(2)源和汇,采用全生命周期评价方法,建立了CO_(2)-ESGR技术全过程CO_(2)排放量核算模型,进而基于多场耦合作用下CO_(2)、CH_(4)渗流数学模型得到了CO_(2)封存量及页岩气产量,并系统核算了CO_(2)-ESGR全过程CO_(2)排放量,分析了CO_(2)注入压力、页岩中CO_(2)相对CH_(4)的吸附选择性系数(α_(CO_(2)/CH_(4)))等参数对CO_(2)净减排量的影响。研究结果表明:①CO_(2)注入压力和α_(CO_(2)/CH_(4))对于CO_(2)净减排量具有重要影响,α_(CO_(2)/CH_(4))越大,CO_(2)净减排量越大,CO_(2)注入压力增加,CH_(4)累计产量、CO_(2)封存量、CO_(2)净减排量均越大,不同CO_(2)注入压力条件下CO_(2)净减排量为0.85~2.06 tCO_(2)/tCH_(4),而在不同α_(CO_(2)/CH_(4))条件下可达1.59~5.45 tCO_(2)/tCH_(4);②CO_(2)捕集、运输、注入环节是影响CO_(2)-ESGR技术全生命周期CO_(2)净减排量的关键因素,需要考虑不同行业组合、源汇匹配情况对CO_(2)净减排量的影响,进而对全流程CCUS工程实施方案进行优化。结论认为:①该CO_(2)-ESGR工程CO_(2)封存量大于CO_(2)捕集、运输、注入及页岩气生产与利用环节的CO_(2)总排放量,可实现CO_(2)-ESGR全过程CO_(2)负排放,说明CO_(2)-ESGR是实现中国“碳中和”的重要技术路径之一;②下一步研究应综合考虑CO_(2)注入时机、压力、速率等工程参数以及页岩气储层条件等地质因素对于CO_(2)封存量和净减排量的影响,对CO_(2)-ESGR系统进行优化。 展开更多
关键词 页岩气 CCUS CO_(2)封存潜力 碳中和 全生命周期评价 CO_(2)-ESGR CO_(2)净减排
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缺陷态TiO_(2−x)-Au团簇复合结构设计实现高效可见光驱动CO_(2)还原
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作者 肖立 岐少鹏 +5 位作者 周昆 薄雅楠 王秀林 姚辉超 戴若云 隋依言 《化工进展》 北大核心 2025年第6期3062-3071,共10页
提高太阳光吸收能力和电荷分离效率对TiO_(2)基光催化剂实现高效CO_(2)光还原具有重要意义。通过在TiO_(2)纳米片同步引入氧空位和Au团簇,构建了TiO_(2−x)-Au团簇。TiO_(2−x)与Au团簇之间的协同作用增强了可见光吸收、光诱导电荷分离和... 提高太阳光吸收能力和电荷分离效率对TiO_(2)基光催化剂实现高效CO_(2)光还原具有重要意义。通过在TiO_(2)纳米片同步引入氧空位和Au团簇,构建了TiO_(2−x)-Au团簇。TiO_(2−x)与Au团簇之间的协同作用增强了可见光吸收、光诱导电荷分离和迁移过程,这对促进CO_(2)光转化具有重要意义。合成的TiO_(2−x)-Au团簇增强了光催化CO_(2)还原为CO的能力,其中TiO_(2−x)-Au_(4.985)团簇的光催化性能最好,CO产率9.45μmol/(g·h)明显优于纯TiO_(2−x)和TiO_(2)。本研究为开发新型TiO_(2)基光催化剂提供了新的见解和启示。 展开更多
关键词 复合结构 TiO_(2−x) Au团簇 光催化CO_(2)还原
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载体形貌对于Ru/CeO_(2)催化剂合成氨性能影响的研究
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作者 王鹏 张江涛 +2 位作者 徐永平 李淑英 王爽 《太原理工大学学报》 北大核心 2025年第4期621-630,共10页
【目的】钌纳米粒子(Ru nanoparticles,Ru NPs)在反应过程中易团聚,导致其在合成氨中的催化性能显著降低,选取合适的载体分散Ru NPs是一种行之有效的解决策略。【方法】采用OH-调控策略,通过改变OH-的浓度合成了三种不同形貌的CeO_(2)(... 【目的】钌纳米粒子(Ru nanoparticles,Ru NPs)在反应过程中易团聚,导致其在合成氨中的催化性能显著降低,选取合适的载体分散Ru NPs是一种行之有效的解决策略。【方法】采用OH-调控策略,通过改变OH-的浓度合成了三种不同形貌的CeO_(2)(纳米颗粒(CeO_(2)-NP)、纳米棒(CeO_(2)-NR)和纳米立方体(CeO_(2)-NC)),随后利用浸渍还原法在CeO_(2)上负载Ru NPs,获得了Ru/CeO_(2)催化剂,借助于XRD、XPS、SEM、TEM、H_(2)-TPR等仪器对催化剂物化性质进行了详细表征,并在温和条件下考察了三种催化剂的氨合成活性。【结果】结果显示,当Ru NPs的负载量为2.5%时,得到的2.5%Ru/CeO_(2)-NR催化剂具有适宜尺寸的Ru NPs、更多的氧空位、Ru—O—Ce键和Ru^(n+)物种,在1 MPa、450℃的条件下,表现出高的氨合成速率。另外,2.5%Ru/CeO_(2)-NR没有发生氢中毒,并能维持120 h的热稳定性,显示了潜在的实际应用前景。 展开更多
关键词 OH-调控策略 不同形貌的二氧化铈 钌纳米粒子 负载型催化剂 合成氨
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斯洛文尼亚岩溶区草地生长季土壤CO_(2)变化及其降雨效应
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作者 章程 肖琼 +6 位作者 汪进良 孙平安 苗迎 郭永丽 Mitja PRELOVSEK Martin KNEZ Saša MILANOVIĆ 《地球学报》 北大核心 2025年第2期397-408,共12页
土壤CO_(2)是岩溶作用的核心驱动因子,也是研究土壤呼吸及其与大气CO_(2)源汇关系的核心指标。快速的岩溶动力学和碳循环过程及其对生态系统的敏感性,暗示其在现今全球碳循环中仍在发挥积极作用。本文以斯洛文尼亚第纳尔岩溶区典型草地... 土壤CO_(2)是岩溶作用的核心驱动因子,也是研究土壤呼吸及其与大气CO_(2)源汇关系的核心指标。快速的岩溶动力学和碳循环过程及其对生态系统的敏感性,暗示其在现今全球碳循环中仍在发挥积极作用。本文以斯洛文尼亚第纳尔岩溶区典型草地土壤生态系统为例,开展不同深度土壤温度、水分和土壤CO_(2)含量等指标高分辨率在线监测。监测工作在2021年6—9月草地生长季进行,每10 min记录一组数据。结果表明,土下20 cm、30 cm和50 cm土温均值分别为19.69℃、18.54℃和17.42℃,暗示土温随深度增加逐渐变小。土下20 cm、30 cm和50 cm水分含量均值分别为23.2%、21.7%和24.9%。土壤水分变化主要受降雨控制,降雨强度越大,水分上升幅度越大。土下20 cm、30 cm和50 cm土壤CO_(2)变化范围分别为(1884~6705)×10^(–6)、(2088~5516)×10^(–6)、(2771~3606)×10^(–6),均值分别为3578×10^(–6)、3468×10^(–6)、3174×10^(–6)。无雨期间土壤水分显示出白天下降,夜晚基本保持不变的阶梯状下降趋势,受土壤水分控制,土壤CO_(2)多日总体变化呈现锯齿状持续降低趋势。不同降雨条件下均出现土壤CO_(2)向下迁移现象,从强降雨过程初期产生的土壤CO_(2)含量快速下降看,表明雨水入渗产生的脉冲效应导致CO_(2)快速向下迁移,进一步进入下伏岩溶含水层,可为碳酸盐岩溶蚀提供CO_(2)驱动力,比较下降幅度与雨前CO_(2)含量,暗示降雨过程中12%~33%的土壤CO_(2)进入岩溶含水层并参与碳酸盐岩溶蚀。监测结果暗示岩溶作用是陆地生态系统碳循环的横向延伸,具有土壤CO_(2)汇效应,也就是说,岩溶作用过程具有缓解土壤CO_(2)向大气释放功能,即减源效应。因此,在研究岩溶区碳循环及其碳汇效应时,应把植被-土壤-碳酸盐岩溶蚀作为一个整体,从岩溶关键带角度,系统开展监测与研究,以期获得岩溶区碳循环过程的完整认识,揭示其碳汇效应,进一步评估岩溶区碳循环在全球碳循环的作用和应对气候变化中的地位。 展开更多
关键词 土壤CO_(2) 土壤水分 降雨过程 岩溶作用 减源效应 斯洛文尼亚
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分散Cu_(x)Co_(y)O的一锅合成及其储能和光催化还原CO_(2)性能研究
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作者 桂玉梅 余昕 +2 位作者 刘顺强 张萍 解明江 《现代化工》 北大核心 2025年第9期173-181,共9页
利用商业轻质氧化镁为原料,通过一锅离子交换结合低温热处理的方法实现了铜钴复合氧化物的制备。分析表明,所合成的复合氧化物具有高度分散的结构、较大的比表面积和均匀的元素分布。其作为电极用于储能型超级电容器,实现了优于单一氧... 利用商业轻质氧化镁为原料,通过一锅离子交换结合低温热处理的方法实现了铜钴复合氧化物的制备。分析表明,所合成的复合氧化物具有高度分散的结构、较大的比表面积和均匀的元素分布。其作为电极用于储能型超级电容器,实现了优于单一氧化物的超级电容器性能,在电流密度为1 A/g时,复合氧化物的比电容高达650 F/g;在功率密度为775 W/kg时,复合氧化物电极的能量密度高达37.8 W·h/kg。当铜和钴的质量比为1∶2的复合氧化物用于光催化还原CO_(2)时,同时实现了较高的甲烷和一氧化碳收率。 展开更多
关键词 高分散 CuCo复合氧化物 超级电容器 光催化 CO_(2)还原
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盐城市2013-2021年农业源氨排放清单及特征
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作者 李荔 赵秋月 +1 位作者 韩军赞 李慧鹏 《生态环境学报》 北大核心 2025年第1期67-76,共10页
氨是广泛存在于大气环境中的一种碱性气体,是PM_(2.5)二次生成的重要前体物之一。农业活动是氨排放的主要来源,建立城市尺度分区县农业源氨排放清单对提升空气质量模型准确度、制定精细化减排措施具有重要意义。根据调研与统计数据,基... 氨是广泛存在于大气环境中的一种碱性气体,是PM_(2.5)二次生成的重要前体物之一。农业活动是氨排放的主要来源,建立城市尺度分区县农业源氨排放清单对提升空气质量模型准确度、制定精细化减排措施具有重要意义。根据调研与统计数据,基于排放因子法,建立了盐城市2013-2021年农业源氨排放清单,分析了各类排放源的年际变化、分布特征及减排贡献。综合利用企业工商注册信息、土地利用等精细化活动水平数据,改进了畜禽养殖的空间分配方法。结果表明,1)2021年盐城市农业源氨排放总量为87.58kt,氮肥施用、畜禽养殖分别占63.1%和31.6%。氮肥施用中尿素排放占86.2%,畜禽养殖中家禽排放占69.8%。2)2013-2021年间,盐城市农业源氨排放总量年均下降2.8%,总体趋势与江苏省平均水平基本一致,降幅略高;排放强度由6.52t·km^(-2)持续下降至4.94t·km^(-2),降幅达24.1%。盐城市排放强度在全国重点省份典型城市中处于中等水平,在长三角区域中处于相对高位。3)各区县排放地域差异明显,东台、大丰、射阳、滨海和阜宁等5个区县贡献了盐城市75.2%的氨排放,阜宁、建湖、东台和滨海等4个区县的排放强度高于全市平均。4)各类氨排放源中累计减排贡献率最高的为畜禽养殖和氮肥施用,分别为69.0%和31.6%。2016年起畜禽养殖氨排放量连续5年保持6.0%以上降幅,是盐城市农业源氨排放总量从平台期进入下降通道的重要原因。建议进一步关注东台、滨海、阜宁等区县,重点针对家禽、尿素等高排放源类,以及粪水贮存处理、养殖圈舍等关键环节,持续开展氨排放治理。 展开更多
关键词 氨排放 排放清单 农业源 氮肥施用 畜禽养殖 减排 城市尺度
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珊瑚状Mo_(2)C/Mo_(3)P@NC异质结电极高效催化Li-CO_(2)电池
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作者 李雪莲 曹志会 +7 位作者 雷普瑛 白冰 王璇 张金鑫 侯凯 刘爱芳 齐凯 高丽丽 《化工进展》 北大核心 2025年第1期202-211,共10页
以ZIF-8为基底并在其框架结构中原位引入金属Mo,进行高温煅烧处理,成功得到多孔富缺陷碳基底耦合的Mo_(2)C和Mo_(3)P异质结(Mo_(2)C/Mo_(3)P@NC)催化剂,Mo_(2)C/Mo_(3)P@NC呈现出较大的比表面积和充分的活性位点,更重要的是诱导Mo向低... 以ZIF-8为基底并在其框架结构中原位引入金属Mo,进行高温煅烧处理,成功得到多孔富缺陷碳基底耦合的Mo_(2)C和Mo_(3)P异质结(Mo_(2)C/Mo_(3)P@NC)催化剂,Mo_(2)C/Mo_(3)P@NC呈现出较大的比表面积和充分的活性位点,更重要的是诱导Mo向低价态δ(0<δ<4)过渡,改变材料表面电荷分布,增强的局域电荷位点Mo^(δ+)显著增加缺陷和活性位点,双价态Mo^(δ+)-Mo^(6+)位点构建出有利于CO_(2)吸-脱附,锂离子及电子迁移输运路径,在CO_(2)RR过程中稳定两电子产物Li_(2)C_(2)O_(4),并防止歧化成四电子产物Li_(2)CO_(3)。Mo_(2)C/Mo_(3)P@NC优异的催化特性驱动锂-二氧化碳电池遵循两电子反应路径(2Li^(+)+2CO_(2)+2e-→Li_(2)C_(2)O_(4)),电池充电电位和极化情况显著缓解,全放电容量高达10538m Ah/g,可逆充电容量为10521m Ah/g,库仑效率提升到99.8%;在电流密度为100m A/g下充电-放电电位差仅为0.7V,能以较小的电位差稳定循环1100h。 展开更多
关键词 锂-二氧化碳电池 Mo_(2)C/Mo_(3)P催化剂 异质结 二氧化碳还原
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膜曝气生物膜反应器污水处理过程N_(2)O排放特性及减排策略 被引量:1
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作者 王亚宜 贺泰来 +3 位作者 李佳 吴巧玉 汪涵 赵立功 《北京工业大学学报》 北大核心 2025年第3期350-358,共9页
膜曝气生物膜反应器(membrane aerated biofilm reactor,MABR)作为一种新型的污水处理技术,因其高效的氮去除能力和较低的N_(2)O排放水平而受到广泛关注。传统污水处理脱氮过程中,硝化反硝化阶段主要通过羟胺氧化、AOB反硝化、异养反硝... 膜曝气生物膜反应器(membrane aerated biofilm reactor,MABR)作为一种新型的污水处理技术,因其高效的氮去除能力和较低的N_(2)O排放水平而受到广泛关注。传统污水处理脱氮过程中,硝化反硝化阶段主要通过羟胺氧化、AOB反硝化、异养反硝化以及化学变化途径产生N_(2)O。MABR处理市政污水较传统曝气方式具有更低的N_(2)O排放潜力,主要得益于MABR特殊的底物异向扩散模式和无泡曝气方式,这会减少N_(2)O产生潜力及排放水平。该文总结了MABR在运行过程中N_(2)O产生与降低途径,讨论了N_(2)O产生和排放的影响因素及控制策略,并对今后研究MABR体系中N_(2)O排放进行了展望,以期说明MABR进一步工程应用在碳减排方面的优势。 展开更多
关键词 膜曝气生物膜反应器(membrane aerated biofilm reactor MABR) N_(2)O 污水处理 温室气体 碳减排 生物脱氮
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