Aspen Plus 可持续性应用®
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用生物质数据库和 Aspen Plus 进行生物质热解建模和表征了解更多信息
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用生物质数据库和 Aspen Plus 进行生物质原料表征
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用Aspen Plus的生物质数据库通过好氧发酵生产1,4-丁二醇
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906通过Aspen Plus发酵从木质纤维素生物质生产生物乙醇
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL 将玉米秸秆与玉米干磨机(联合公用事业)与 Aspen Plus 放在一起生产乙醇
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL将玉米秸秆与玉米干磨机(联合乙醇纯化)与Aspen Plus共置乙醇
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL将玉米秸秆与玉米干磨机(组合产品加工)与Aspen Plus共置到乙醇中
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL将玉米秸秆与玉米干磨机(结合C5和C6发酵)与Aspen Plus共置到乙醇中
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL 使用 Aspen Plus 简化生物质到乙醇的过程模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用 Aspen Plus 将生物质生化转化为乙醇的 NREL 工艺设计
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL 2017 使用 Aspen Plus 的生化糖模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL 木材使用带有 Aspen Plus 的间接加热气化炉制氢
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906NREL 木材到混合醇与 Aspen Plus
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用 Aspen Plus 对乙醇生产和使用作为运输燃料的环境生命周期评估
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906使用 Aspen Plus 通过 ACM 进行生物质热解建模
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906通过Aspen Plus好氧发酵生产1,4-丁二醇
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 MEA 和 Aspen Plus 从燃煤电厂捕获 CO2
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 MEA 和 Aspen Plus 从天然气发电厂捕获 CO2
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 DEPG 和 Aspen Plus 在低压下从合成气中捕获 CO2,用于 IGCC
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143一氧化碳2使用 DEPG 和 Aspen Plus 从合成气中捕获用于 IGCC 的合成气
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 MEA 和 Aspen Plus 从合成气中捕获 CO2 用于 IGCC
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 MEA 和 Aspen Plus 验证烟气中碳捕获的工厂数据
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用氢氧化钾水溶液和 Aspen Plus 进行直接空气捕获 (DAC)
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用植物数据和 Aspen Plus 的 Aspen 混合模型使用基于胺的吸收装置捕获 CO2
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用碳酸钾和 Aspen Plus 捕获 CO2
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 Aspen Plus 碳酸钾捕获和去除 H2S
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 Aspen Plus 进行 CO2 调节、运输和封存的热力学套件评估
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_emissions-tracking.svg?la=en&hash=7E6B9E834C6187F7A49016C0786048CF使用 Aspen Plus 进行天然气联合循环 (NGCC) 发电厂的碳排放建模
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 进行工业规模的碱性电解
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 电解生产绿氨
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用带有Aspen Plus的裂解炉将氢气转化为氨
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 在氢液化厂中使用单一混合制冷剂 PRICO 预冷工艺
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778氢气液化厂中的单一混合制冷剂 PRICO+ 预冷工艺,使用带有 Aspen Plus 的内置氢气套件
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778在氢气液化厂中使用带有 Aspen Plus 的内置氢气套件的集成低温工艺
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778氢气液化厂中的级联混合制冷剂预冷过程,使用带有 Aspen Plus 的内置氢气套件
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778在氢气液化厂中使用带有 Aspen Plus 的内置氢气套件的级联混合制冷剂 + 预冷过程
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 通过蒸汽甲烷重整制氢的第一性原理驱动混合模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用Aspen Plus的聚合物电解质膜进行水电解制氢
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778基于Aspen Plus的甲醇合成混合模型规划
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778质子交换膜 (PEM) 燃料电池用于使用来自氯厂的氢气和 Aspen Plus 进行发电
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778固体氧化物燃料电池 (SOFC) - 采用 Aspen Plus 的热、氢、电联产 (CHHP) 系统
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778质子交换膜 (PEM) 燃料电池与 Aspen Plus 的集成定制模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用Aspen Plus水电解系统生产绿氨
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778通过带有Aspen Plus的碱性电解系统制氢
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 通过热解高级回收高密度聚乙烯 (HDPE)
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 通过热解高级回收聚苯乙烯
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 通过热解高级回收聚丙烯
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 通过糖酵解对苯二甲酸乙二醇酯 (PET) 进行高级回收
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 使用热解将不可回收塑料转化为燃料油
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 热解废轮胎
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 回收锂离子电池
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_recycling.svg?la=en&hash=ADD78D5F0B82C7610B473C8922B5AD71使用 Aspen Plus 进行锂离子电池回收与技术经济分析和生命周期评估
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_renewable-electricity.svg?la=en&hash=E290C5679D8FCE92E5241682ECBD8D1E使用 Aspen Plus 在 ACM 中建立简单的风力涡轮机模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_renewable-electricity.svg?la=en&hash=E290C5679D8FCE92E5241682ECBD8D1E使用 Aspen Plus 的 ACM 中的太阳能电池板模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_renewable-electricity.svg?la=en&hash=E290C5679D8FCE92E5241682ECBD8D1E使用 Aspen Plus 进行海上风电可再生氢生产
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_industrial-battery-copy.svg?la=en&hash=C38E63BDDDE156ADCFFDF9378BBAD94B使用 Aspen Plus 在锂离子电池制造过程中进行阴极干燥和溶剂回收
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_industrial-battery-copy.svg?la=en&hash=C38E63BDDDE156ADCFFDF9378BBAD94B使用 Aspen Plus 制造锂离子电池的正极活性材料
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_industrial-battery-copy.svg?la=en&hash=C38E63BDDDE156ADCFFDF9378BBAD94B使用 Aspen Plus 回收锂离子电池
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_industrial-battery-copy.svg?la=en&hash=C38E63BDDDE156ADCFFDF9378BBAD94B使用 Aspen Plus 进行锂离子电池制造中正极活性材料加工的生命周期评估和成本估算
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_industrial-battery-copy.svg?la=en&hash=C38E63BDDDE156ADCFFDF9378BBAD94B使用 Aspen Plus 进行锂离子电池回收与技术经济分析和生命周期评估
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_other.svg?la=en&hash=CA790E2886BEC4193171A8B6F7732C79通过Aspen Plus的反渗透进行水净化
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_other.svg?la=en&hash=CA790E2886BEC4193171A8B6F7732C79使用 Aspen Plus 对 CO2 进行矿物碳酸化
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 Aspen Plus 膜进行 CO2 捕获
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用 Aspen Plus 进行 CO2 的脱水、压缩和催化氧化运输
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143基于膜的直接空气CO2捕集分离装置,在Aspen Plus中具有严格的模型
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143生物能源与碳捕获和储存 (BECCS) 与 Aspen Plus
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 进行气体分离和 H2 净化的变压吸附
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_bio-based-feedstock.svg?la=en&hash=88D8B2DBEFB9CF52696CB0C19D2CE906通过乙醇和Aspen Plus生产可持续航空燃料
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_other.svg?la=en&hash=CA790E2886BEC4193171A8B6F7732C79使用 Aspen Plus 将 ACM 中的 CO2 电化学还原为 CO
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_other.svg?la=en&hash=CA790E2886BEC4193171A8B6F7732C79通过乙醇和Aspen Plus生产可持续航空燃料
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_other.svg?la=en&hash=CA790E2886BEC4193171A8B6F7732C79通过Aspen Plus的加氢加工发酵糖途径生产可持续航空燃料
视图
https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用 Aspen Plus 进行甲烷热解制氢
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/hydrogen_icon_200x200-01.svg?la=en&hash=53E65800A437E3E4CA655D2EB2F45778使用混合模型和Aspen Plus从合成气中合成甲醇
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https://www.aspentech.com/-/media/aspentech/home/sustainability/models/sustainability-icons_02_carbon-capture.svg?la=en&hash=34379235E550AB92511480471B789143使用胺构建 CO2 捕获热力学模型的最佳实践
{:1110_549:}{:1110_550:} 以梦为马,不负韶华 {:1110_562:} {:1110_550:} 这是什么,怎么什么都看不到 以梦为马,不负韶华 只有标题吗 以梦为马,不负韶华 {:1110_553:} 以梦为马,不负韶华~ 以梦为马,不负韶华 以梦为马,不负韶华 THANKS
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