共查询到19条相似文献,搜索用时 93 毫秒
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采用混合胺吸收剂替代传统一乙醇胺(MEA)吸收剂是降低有机胺法碳捕集工艺能耗的重要方法。利用Aspen plus软件模拟了以甲基二乙醇胺(MDEA)/哌嗪(PZ)混合胺为吸收剂的燃煤电厂每年百万吨CO2捕集工艺系统,考察了贫液负荷、MDEA/PZ混合胺浓度、MDEA/PZ比例和解吸压力等因素对解吸塔再沸器热负荷和冷凝器冷负荷的影响。通过对这些影响因素下吸收塔内液相温度分布和CO2负荷分布变化揭示了MDEA/PZ对CO2的吸收特性。此外,进一步分析了不同影响因素下解吸塔内气液相CO2浓度驱动力和气液相级间温度驱动力分布特性,发现了强浓度驱动力和低温度驱动力分布更有利于降低再生能耗。研究表明,由30%MDEA和20%PZ组成的混合胺液在贫液负荷为0.08和解吸压力为2.02×105Pa时,再沸器热负荷和塔顶冷凝负荷分别为2.76GJ/tCO2和0.60GJ/tCO2,相比传统MEA吸收剂降低了20.92%和40.0%。 相似文献
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结合目前二氧化碳捕集技术的发展现状,对二氧化碳捕集方法进行深入研究,在此基础上,对二氧化碳捕集机理进行深入分析,为推动二氧化碳捕集技术的进一步发展奠定基础。 相似文献
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Three gas separation technologies,chemical absorption,membrane separation and pressure swing adsorption,are usually applied for CO2 capture from flue gas in coal-fired power plants.In this work,the costs of the three technologies are analyzed and compared.The cost for chemical absorption is mainly from $30 to $60 per ton(based on CO2 avoided),while the minimum value is $10 per ton(based on CO2 avoided).As for membrane separation and pressure swing adsorption,the costs are $50 to $78 and $40 to $63 per ton(based on CO2 avoided),respectively.Measures are proposed to reduce the cost of the three technologies.For CO2 capture and storage process,the CO2 recovery and purity should be greater than 90%.Based on the cost,recovery,and purity,it seems that chemical absorption is currently the most cost-effective technology for CO2 capture from flue gas from power plants.However,membrane gas separation is the most promising alternative approach in the future,provided that membrane performance is further improved. 相似文献
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燃煤电厂C02捕集技术与经济分析 总被引:2,自引:0,他引:2
随着全球CO2排放量的逐年递增,气候变化和CO2减排问题已经引起了世界性的关注。电厂CO2捕集技术研究也成了热点。主要对国内外燃煤电厂CO2捕集技术与经济分析作了综述,并对我国现运行的燃煤电厂碳捕集示范装置进行简要的技术与经济分析。 相似文献
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对目前国内外各种脱碳技术进行了介绍和分析,并根据烟气特点提出了燃煤电厂烟气脱碳技术的选择条件,推荐了目前适合于燃煤电厂烟气脱碳的醇胺法脱碳技术。在此基础上,对醇胺法吸收剂的选择及工艺配置给出了具体的建议。 相似文献
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介绍了工业化经济型CO2吸收塔的实体案例,总结近十年来工业化CO2吸收塔的化工装置以及工程技术进展。系统介绍了CO2吸收塔的化工工艺装置在运行中经常遇到的技术问题以及相应的解决方案,并分析近十年来几类技术发展,分别是溶液降解和降解产物处理技术、气体排放尾气的采样和分析技术、吸收剂主体组分分析技术、降低总体能耗的催化吸收-解吸技术。通过分析可知,利用固体矿物和生物催化剂是降低能耗的有效方法,但存在大量技术问题有待完善和解决。总之,这一系列的化工工艺技术的发展和进步,会为完善经济型吸收塔提供更多可信的实际数据。因此,燃烧尾气后处理的溶剂型CO2吸收化工工艺装置必然朝着更小的反应器(吸收塔)和更低的能耗发展目标前进,从而实现该装置的高效率和低成本运行。 相似文献
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Power generation from fossil fuel-fired power plants is the largest single source of CO2 emissions. Post combustion capture via chemical absorption is viewed as the most mature CO2 capture technique. This paper presents a study of the post combustion CO2 capture with monoethanolamine (MEA) based on dynamic modelling of the process. The aims of the project were to compare two different approaches (the equilibrium-based approach versus the rate-based approach) in modelling the absorber dynamically and to understand the dynamic behaviour of the absorber during part load operation and with disturbances from the stripper. A powerful modelling and simulation tool gPROMS was chosen to implement the proposed work. The study indicates that the rate-based model gives a better prediction of the chemical absorption process than the equilibrium-based model. The dynamic simulation of the absorber indicates normal absorber column operation could be maintained during part load operation by maintaining the ratio of the flow rates of the lean solvent and flue gas to the absorber. Disturbances in the CO2 loading of the lean solvent to the absorber significantly affect absorber performance. Further work will extend the dynamic modelling to the stripper for whole plant analysis. 相似文献
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《Journal of Sulfur Chemistry》2013,34(5):457-475
Coal combustion continues to be a major source of energy throughout the world and is the leading contributor to anthropogenic mercury emissions. Effective control of these emissions requires a good understanding of how other flue gas constituents such as sulfur dioxide (SO2) and sulfur trioxide (SO3) may interfere in the removal process. Most of the current literature suggests that SO2 hinders elemental mercury (Hg0) oxidation by scavenging oxidizing species such as chlorine (Cl2) and reduces the overall efficiency of mercury capture, while there is evidence to suggest that SO2 with oxygen (O2) enhances Hg0 oxidation by promoting Cl2 formation below 100 °C. However, studies in which SO2 was shown to have a positive correlation with Hg0 oxidation in full-scale utilities indicate that these interactions may be heavily dependent on operating conditions, particularly chlorine content of the coal and temperature. While bench-scale studies explicitly targeting SO3 are scarce, the general consensus among full-scale coal-fired utilities is that its presence in flue gas has a strong negative correlation with mercury capture efficiency. The exact reason behind this observed correlation is not completely clear, however. While SO3 is an inevitable product of SO2 oxidation by O2, a reaction that hinders Hg0 oxidation, it readily reacts with water vapor, forms sulfuric acid (H2SO4) at the surface of carbon, and physically blocks active sites of carbon. On the other hand, H2SO4 on carbon surfaces may increase mercury capacity either through the creation of oxidation sites on the carbon surface or through a direct reaction of mercury with the acid. However, neither of these beneficial impacts is expected to be of practical significance for an activated carbon injection system in a real coal-fired utility flue gas. 相似文献
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在某燃煤电厂用乙醇胺(MEA)作吸收剂进行了CO2燃烧后捕集中试,并对系统的排放物进行了分析。吸收塔尾气和再生气用GASMET烟气监测系统进行在线监测,可得到二者组分及含量。结合电厂烟气、连续监测系统(CEMS)数据及实验室溶液分析,根据烟气数据对MEA的挥发及降解情况作了研究,比较了系统前后烟气组分的变化,讨论其尾气对环境是否造成二次污染。试验结果表明:MEA在吸收塔中主要发生氧化降解,在再生塔中主要发生热降解,且溶剂损耗主要来自氧化降解和挥发;降解的主要产物为NH3和乙醛,二者在气体中含量变化情况与溶液中MEA浓度变化基本一致;预洗塔能除去原烟气中部分酸性气体。故CO2捕集系统可以进一步减少电厂净烟气中的原有污染物,但也会产生新的污染组分。新生成的污染物含量很少,符合国家标准,不会造成二次污染。 相似文献
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随着“后京都时代”的到来,电厂烟气氨法脱碳技术成为近年来新兴的CO2减排方法研究热点之一。本文对国内外有关氨法脱碳的机理、主要工艺和参数等的相关研究给予了详细的总结与分析,并对存在的问题和技术未来发展等方面进行了阐述。现有试验及系统模拟结果表明,氨法脱碳技术可实现90%以上的CO2脱除效率,氨水溶液具有1.0 kg CO2/kg NH3以上的吸收能力;其中,CO2脱除效率、吸收能力及速率等参数主要受氨水浓度、吸收反应温度、吸收剂再生条件等因素影响。经济性研究显示,氨法联合脱除技术有望将CO2捕获带来的电价增长控制在20%以内。 相似文献
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全球气候变化是目前世界面临的严峻问题之一,CO2等温室气体的过量排放是导致全球气候变暖的主要原因。碳捕集、利用和封存(CCUS)是现阶段解决全球气候变暖的必要手段,基于有机胺的化学吸收法因捕集效率高、烟气适应性好,成为目前燃煤燃气电厂捕集CO2的关键技术路径。本文详细介绍了胺法CO2捕集技术的基本原理及胺法CO2捕集技术工艺流程,分析了新型吸收剂的开发、节能技术的优化等降低胺法CO2捕集技术再生能耗和成本的关键手段。结合研究现状以及烟气胺法CO2捕集需求,对其未来的发展趋势进行展望。 相似文献
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在燃煤电厂CO2捕集中,为了提高其捕集效率,需对进入系统的烟气进行预处理。为进一步提高进入系统烟气的质量,本文用Aspen Plus模拟优化烟气预处理系统,通过研究在预洗塔中组合填料、填料层高度、吸收剂进量和分层进吸收剂对出口烟气中SO2的含量、脱硫效率以及出口烟气温度的影响,得出最佳的工艺条件。模拟结果表明,加入不同种类组合填料,同种类不同型号组合填料和分层进吸收剂都使烟气脱硫效率增加,出口烟气温度降低;随着填料层高度和吸收剂进量的增加,出口烟气中SO2的含量和出口烟气温度降低,其中最佳的高度为2~4m,最佳的吸收剂进量为(250~350)×103kg/h。 相似文献