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中国能源消费结构与风电/煤制天然气耦合经济性分析

余波,曹晨,顾为东

《中国工程科学》 2015年第17卷第3期页码 100-106

摘要： >本文以年产1×109 m3煤制天然气工艺为例，采用Shell干粉气化技术，比较了传统煤制天然气工艺和风电/煤制天然气耦合情况下，工艺过程中（从煤气化到水煤气变换）的设备投资、运行费用以及CO2排放特性，结果表明，尽管风电电解水系统完全取代空分系统和水煤气变换系统设备投资巨大，但是其年平均运行费用（设备折旧、原料、电耗）却最低，CO2排放量为传统煤制天然气工艺的1.3 %，为煤制天然气产业发展提供一个参考

关键词：能源消费；煤制天然气；非并网风电；经济性分析；CO2排放

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以净零排放为目标的封存驱动型CO₂提高采收率方法 Article

刘月亮, 芮振华

《工程（英文）》 2022年第18卷第11期页码 79-87 doi: 10.1016/j.eng.2022.02.010

摘要：

将全球气候变化控制在1.5 ℃以内需要降低温室气体排放，主要是减少二氧化碳（CO₂）的排放。可通过驱油过程将CO₂封存在油藏地质体中，因此，CO₂驱油与封存被视为降低CO₂排放的重要手段之一。本研究提出了一种新型的CO₂提高采收率（EOR）方法，即封存驱动型CO₂提高采收率，其主要目标是通过在油藏中封存尽可能多的CO₂来实现CO₂净零排放甚至负排放，同时最大限度提高原油采收率。此外，通过封存驱动型CO₂ EOR封存的CO₂量远超采出原油燃烧产生的碳排放总量。

关键词： CO₂ EOR CO₂净排放量二甲醚封存驱动型CO₂ EOR CO₂封存

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太阳能技术对我国未来减排CO₂ 的贡献

赵玉文

《中国工程科学》 2003年第5卷第4期页码 38-40

摘要：

在“我国后续能源发展战略研究”基础上对太阳能技术在我国未来减排CO₂中的作用进行了估计，结果表明，在2010年后太阳能技术对CO₂减排作用开始有较明显影响，2020年后开始有较显著影响。

关键词：太阳能，CO2减排

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实现净零排放

Chris Greig

《工程（英文）》 2020年第6卷第12期页码 1341-1342 doi: 10.1016/j.eng.2020.09.005

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离岸碳捕集利用与封存技术体系研究

李姜辉,李鹏春,李彦尊,童峰

《中国工程科学》 2023年第25卷第2期页码 173-186 doi: 10.15302/J-SSCAE-2023.07.015

摘要：

离岸碳捕集、利用与封存（CCUS）技术是沿海国家或地区通过工程方式为实现CO₂减排而发展起来的解决方案与技术体系；相对于陆上离岸CCUS技术指从沿海大型或近海碳排放源捕集CO₂，加压并运输至离岸封存平台后注入海底地质储层中，实现CO₂与大气永久隔离或利用其生产价值产品的过程。本文概要回顾了全球及我国离岸CCUS技术的发展需求与产业现状，分析了发展离岸CCUS的技术性和社会性价值；梳理总结了代表性的离岸CCUS技术发展路线及其态势，如CO₂工厂捕集、CO₂管道运输、CO₂海底咸水层封存与驱油利用、CO₂化学利用以及其他技术架构。

关键词：离岸碳捕集、利用与封存；CO2捕集；CO2运输；CO2封存；CO2利用；沿海地区；近海沉积盆地

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清洁煤电大气污染物近零排放技术与工程应用 Article

王树民

《工程（英文）》 2020年第6卷第12期页码 1408-1422 doi: 10.1016/j.eng.2019.10.018

摘要：针对煤电大气污染物排放带来的严峻生态环境问题，本文开展了清洁煤电近零排放技术研究与工程实践，评估了近零排放机组长周期运行状态，并探究了重金属汞协同和专门控制技术。结果表明，提出的近零排放技术路线煤质适应性强，应用到全国101台燃煤机组，大气污染物烟尘、SO₂、NO_x排放浓度低于燃气发电排放限值，长周期运行时排放浓度小时均值达标率超过污染物总排放量降低约90%，有效改善了环境空气质量。近零排放机组汞排放浓度为0.51~2.89 μg·m^–3，投运改性飞灰（MFA）专门脱汞系统，汞排放浓度可低至0.29 μg·m，提出并实现了新的近零排放煤电“1123”生态环保排放限值，即烟尘、SO₂、NO_x和汞及其化合物排放浓度分别不高于1

关键词：清洁煤电大气污染物近零排放中试平台 “1123”生态环保排放限值

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Newly-modeled graphene-based ternary nanocomposite for the magnetophotocatalytic reduction of CO2 with

《化学科学与工程前沿（英文）》 2022年第16卷第10期页码 1438-1459 doi: 10.1007/s11705-022-2166-y

摘要： The development of CO₂ into hydrocarbon fuels has emerged as a green method that could help mitigate global warning. The novel structured photocatalyst is a promising material for use in a photocatalytic and magneto-electrochemical method that fosters the reduction of CO₂ by suppressing the recombination of electron−hole pairs and effectively transferring the electrons to the surface for the chemical reaction of CO₂ reduction. In our study, we have developed a novel-structured AgCuZnS₂–graphene–TiO₂ to analyze its catalytic activity toward the selective evolution of CO₂. The selectivity of each nanocomposite substantially enhanced the activity of the AgCuZnS₂–graphene–TiO₂ ternary nanocomposite due to the successful interaction, and the selectivity of the final product was improved to a value 3 times higher than that of the pure AgCuZnS₂ and 2 times higher than those of AgCuZnS₂–graphene and AgCuZnS₂–TiO₂ under ultra-violet (UV)-light (λ = 254 nm) irradiation in the photocatalytic process. The electrochemical CO₂ reduction test was also conducted to analyze the efficacy of the AgCuZnS₂–graphene–TiO₂ when used as a working electrode in laboratory electrochemical cells. The electrochemical process was conducted under different experimental conditions, such as various scan rates (mV·s^–1), under UV-light and with a 0.07 T magnetic-core. The evolution of CO₂ substantially improved under UV-light (λ = 254 nm) and with 0.07 T magnetic-core treatment; these improvements were attributed to the facts that the UV-light activated the electron-transfer pathway and the magnetic core controlled the pathway of electron-transmission/prevention to protect it from chaotic electron movement. Among all tested nanocomposites, AgCuZnS₂–graphene–TiO₂ absorbed the CO₂ most strongly and showed the best ability to transfer the electron to reduce the CO₂ to methanol. We believe that our newly-modeled ternary nanocomposite opens up new opportunities for the evolution of CO₂ to methanol through an electrochemical and photocatalytic process.

关键词： ternary nanocomposite photocatalytic electrochemical CO₂ reduction UV-light magnetic core

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Tuning porosity of coal-derived activated carbons for CO2 adsorption

《化学科学与工程前沿（英文）》 2022年第16卷第9期页码 1345-1354 doi: 10.1007/s11705-022-2155-1

摘要： A simple method was developed to tune the porosity of coal-derived activated carbons, which provided a model adsorbent system to investigate the volumetric CO₂ adsorption performance. Specifically, the method involved the variation of the activation temperature in a K₂CO₃ induced chemical activation process which could yield activated carbons with defined microporous (< 2 nm, including ultra-microporous < 1 nm) and meso-micro-porous structures. CO₂ adsorption isotherms revealed that the microporous activated carbon has the highest measured CO₂ adsorption capacity (6.0 mmol∙g^–1 at 0 °C and 4.1 mmol∙g^–1 at 25 °C), whilst ultra-microporous activated carbon with a high packing density exhibited the highest normalized capacity with respect to packing volume (1.8 mmol∙cm⁻³ at 0 °C and 1.3 mmol∙cm^–3 at 25 °C), which is significant. Both experimental correlation analysis and molecular dynamics simulation demonstrated that (i) volumetric CO₂ adsorption capacity is directly proportional to the ultra-micropore volume, and (ii) an increase in micropore sizes is beneficial to improve the volumetric capacity, but may lead a low CO₂ adsorption density and thus low pore space utilization efficiency. The adsorption experiments on the activated carbons established the criterion for designing CO₂ adsorbents with high volumetric adsorption capacity.

关键词： coal-derived activated carbons porosity CO₂ adsorption molecular dynamics

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Impacts of CO2 and H2S on the risk of hydrate formation during pipeline transport of natural gas

Solomon A. Aromada, Bjørn Kvamme

《化学科学与工程前沿（英文）》 2019年第13卷第3期页码 616-627 doi: 10.1007/s11705-019-1795-2

摘要： Evaluation of maximum content of water in natural gas before water condenses out at a given temperature and pressure is the initial step in hydrate risk analysis during pipeline transport of natural gas. The impacts of CO and H S in natural gas on the maximum mole-fractions of water that can be tolerated during pipeline transport without the risk of hydrate nucleation has been studied using our novel thermodynamic scheme. Troll gas from the North Sea is used as a reference case, it contains very negligible amount of CO and no H S. Varying mole-fractions of CO and H S were introduced into the Troll gas, and the effects these inorganic impurities on the water tolerance of the system were evaluated. It is observed that CO does not cause any distinguishable impact on water tolerance of the system, but H S does. Water tolerance decreases with increase in concentration of H S. The impact of ethane on the system was also investigated. The maximum mole-fraction of water permitted in the gas to ensure prevention of hydrate formation also decreases with increase in the concentration of C H like H S. H S has the most impact, it tolerates the least amount of water among the components studied.

关键词： hydrate hydrogen Sulphide CO₂ dew point pipeline

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海洋CO2管道输送技术现状与展望

王子明,李清平,李姜辉,范振宁,张建

《中国工程科学》 doi: 10.15302/J-SSCAE-2023.06.017

摘要：

管道输送是经济高效的CO2运输方式，海洋CO2运输是离岸碳捕集、利用与封存（CCUS）产业链的关键环节和规模化开展离岸CCUS工程建设所需的核心技术本文明晰了我国实施离岸CCUS的优势、典型海洋碳运输情境和海洋CO2运输方式，剖析了国内外海洋CO2管道输送的技术与工程概况；从CO2流体相态及流动安全，沿程腐蚀风险评估、监测及预警，CO2泄漏实时监测技术，高压CO2泄放及对环境的影响等方面梳理了海洋CO2管道输送工艺技术现状；从CO2管道材料断裂行为及止裂措施、高耐蚀及密封材料、碳钢管道长寿命运行的关键腐蚀控制技术、注采井筒的腐蚀风险评估等方面梳理了海洋CO2管道材料技术现状。研究认为，加快发展适应海洋CO2管道输送复杂工况的材料体系、全流程CO2管道的智慧管理与数字孪生技术、海底CO2管道全生命周期运行关键技术、在役海底管道改输评估与保障技术，采取加快推动我国近海碳封存CO2

关键词： CO2管道；离岸CCUS；海底管道；管道腐蚀；管道断裂；泄漏监测

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Theoretical and experimental study on the fluidity performance of hard-to-fluidize carbon nanotubes-based CO2

《化学科学与工程前沿（英文）》 2022年第16卷第10期页码 1460-1475 doi: 10.1007/s11705-022-2159-x

摘要： Carbon nanotubes-based materials have been identified as promising sorbents for efficient CO₂ capture in fluidized beds, suffering from insufficient contact with CO₂ for the high-level CO₂ capture capacity. This study focuses on promoting the fluidizability of hard-to-fluidize pure and synthesized silica-coated amine-functionalized carbon nanotubes. The novel synthesized sorbent presents a superior sorption capacity of about 25 times higher than pure carbon nanotubes during 5 consecutive adsorption/regeneration cycles. The low-cost fluidizable-SiO₂ nanoparticles are used as assistant material to improve the fluidity of carbon nanotubes-based sorbents. Results reveal that a minimum amount of 7.5 and 5 wt% SiO₂ nanoparticles are required to achieve an agglomerate particulate fluidization behavior for pure and synthesized carbon nanotubes, respectively. Pure carbon nanotubes + 7.5 wt% SiO₂ and synthesized carbon nanotubes + 5 wt% SiO₂ indicates an agglomerate particulate fluidization characteristic, including the high-level bed expansion ratio, low minimum fluidization velocity (1.5 and 1.6 cm·s^–1), high Richardson−Zakin index (5.2 and 5.3 > 5), and low Π value (83.2 and 84.8 < 100, respectively). Chemical modification of carbon nanotubes causes not only enhanced CO ₂ uptake capacity but also decreases the required amount of silica additive to reach a homogeneous fluidization behavior for synthesized carbon nanotubes sorbent.

关键词： CO₂ capture CNT-based sorbents fluidization SiO₂ nanoparticles fluidized bed reactors

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粤港澳大湾区CO₂排放趋势、驱动因素及减排路径 Article

周雅, 李柯君, 梁笙, 曾雪兰, 蔡宴朋, 孟靖, 单钰理, 关大博, 杨志峰

《工程（英文）》 2023年第23卷第4期页码 138-148 doi: 10.1016/j.eng.2022.03.017

摘要：

粤港澳大湾区是我国为建设世界级城市群提出的国家战略，其CO₂排放趋势、社会经济驱动因素和减排路径对区域经济高质量发展具有重要意义。本研究编制了2000—2019 年粤港澳大湾区CO₂排放清单，采用对数平均迪氏指数法探究CO₂排放的关键驱动力。结果表明，粤港澳大湾区CO₂排放在2017 年后明显放缓，已经与国内生产总值（GDP）增长脱钩。经济增长和能源强度分别是驱动和抑制粤港澳大湾区CO₂排放增加的主要因素。能源生产和重工业对粤港澳大湾区CO₂排放增长的推动作用降低，服务业正成为主要驱动力。深圳和香港的产业升级以及深圳、广州和佛山的技术进步抑制了粤港澳大湾区CO₂排放增长。粤港澳大湾区各城市异质性增加了减排指标分配难度和制定区域碳中和路线图的复杂性。

关键词：粤港澳大湾区 CO₂排放驱动因素低碳发展碳中和

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Encapsulation of 2-amino-2-methyl-1-propanol with tetraethyl orthosilicate for CO2 capture

Sidra Rama, Yan Zhang, Fideline Tchuenbou-Magaia, Yulong Ding, Yongliang Li

《化学科学与工程前沿（英文）》 2019年第13卷第4期页码 672-683 doi: 10.1007/s11705-019-1856-6

摘要： Carbon capture is widely recognised as an essential strategy to meet global goals for climate protection. Although various CO capture technologies including absorption, adsorption and membrane exist, they are not yet mature for post-combustion power plants mainly due to high energy penalty. Hence researchers are concentrating on developing non-aqueous solvents like ionic liquids, CO -binding organic liquids, nanoparticle hybrid materials and microencapsulated sorbents to minimize the energy consumption for carbon capture. This research aims to develop a novel and efficient approach by encapsulating sorbents to capture CO in a cold environment. The conventional emulsion technique was selected for the microcapsule formulation by using 2-amino-2-methyl-1-propanol (AMP) as the core sorbent and silicon dioxide as the shell. This paper reports the findings on the formulated microcapsules including key formulation parameters, microstructure, size distribution and thermal cycling stability. Furthermore, the effects of microcapsule quality and absorption temperature on the CO loading capacity of the microcapsules were investigated using a self-developed pressure decay method. The preliminary results have shown that the AMP microcapsules are promising to replace conventional sorbents.

关键词： carbon capture microencapsulated sorbents emulsion technique low temperature adsorption and absorption