[{"name":"材料科学与技术","count":1862,"id":1},{"name":"化工过程与装备","count":1811,"id":2},{"name":"资源与环境化工","count":1447,"id":3},{"name":"工业催化","count":1142,"id":4},{"name":"Materials science and technology","count":1059,"id":5},{"name":"Resources and environmental engineering","count":1056,"id":6},{"name":"能源加工与技术","count":937,"id":7},{"name":"进展与述评","count":841,"id":8},{"name":"Chemical processes and equipment","count":828,"id":9},{"name":"Industrial catalysis","count":791,"id":10},{"name":"研究开发","count":696,"id":11},{"name":"Energy processes and technology","count":654,"id":12},{"name":"应用技术","count":576,"id":13},{"name":"精细化工","count":526,"id":14},{"name":"Progress and Review","count":456,"id":15},{"name":"Research and Development","count":408,"id":16},{"name":"Chemical processes and equipments","count":350,"id":17},{"name":"Material science and technology","count":331,"id":18},{"name":"生物与医药化工","count":321,"id":19},{"name":"Fine chemicals","count":306,"id":20},{"name":"行业动态","count":285,"id":21},{"name":"资源与环境工程","count":263,"id":22},{"name":"Resource and environmental engineering","count":220,"id":23},{"name":"Biochemical and pharmaceutical engineering","count":219,"id":24},{"name":"特约评述","count":191,"id":25},{"name":"专栏(石化科技与管理)","count":139,"id":26},{"name":"生物化工","count":130,"id":27},{"name":"Applied technology","count":117,"id":28},{"name":"开发与应用","count":117,"id":29},{"name":"化工工艺的节能改进","count":115,"id":30},{"name":"Application Technology","count":97,"id":31},{"name":"传热强化技术与装备","count":90,"id":32},{"name":"综述与进展","count":84,"id":33},{"name":"专论与综述","count":81,"id":34},{"name":"Biochemical engineering and technology","count":78,"id":35},{"name":"Invited review","count":75,"id":36},{"name":"国内外新技术","count":75,"id":37},{"name":"化工信息","count":68,"id":38},{"name":"其他","count":63,"id":39},{"name":"水处理及水重复利用技术","count":63,"id":40},{"name":"煤及天然气开发利用","count":59,"id":41},{"name":"会议论文","count":57,"id":42},{"name":"产品与市场","count":55,"id":43},{"name":"生物质开发利用","count":48,"id":44},{"name":"Special column: Chemical process intensification","count":46,"id":45},{"name":"产品信息","count":45,"id":46},{"name":"技术进展","count":44,"id":47},{"name":"其它","count":43,"id":48},{"name":"Invited reviews","count":41,"id":49},{"name":"化工园区","count":36,"id":50},{"name":"Column: Measurement techniques for multiphase flow","count":34,"id":51},{"name":"专栏:多相流测试","count":34,"id":52},{"name":"技术信息","count":32,"id":53},{"name":"精馏技术与节能优化","count":31,"id":54},{"name":"Process System Engineering","count":30,"id":55},{"name":"过程系统工程专栏","count":30,"id":56},{"name":"专栏: 化工过程强化","count":29,"id":57},{"name":"Chemical industry park","count":28,"id":58},{"name":"观点","count":28,"id":59},{"name":"Perspective","count":27,"id":60},{"name":"知识窗","count":27,"id":61},{"name":"专栏:化工分离过程","count":26,"id":62},{"name":"能量系统的优化","count":26,"id":63},{"name":"Chemical separation processes","count":25,"id":64},{"name":"信息交流","count":24,"id":65},{"name":"Special column:Chemical product engineering","count":23,"id":66},{"name":"专栏:化学产品工程","count":23,"id":67},{"name":"Special column:Multiphase flow test","count":20,"id":68},{"name":"专题报道","count":20,"id":69},{"name":"多相流测试——《化工进展》创刊40周年系列专栏","count":20,"id":70},{"name":"Mass Transfer in Separation Process and Technology","count":19,"id":71},{"name":"专栏:热化学反应工程与技术","count":19,"id":72},{"name":"传质分离过程与技术","count":19,"id":73},{"name":"其它节能减排技术","count":19,"id":74},{"name":"工厂实践","count":19,"id":75},{"name":"进展与评述","count":19,"id":76},{"name":"Special column:Industrial catalysis","count":18,"id":77},{"name":"工业催化——《化工进展》创刊40周年系列专栏","count":18,"id":78},{"name":"Others","count":17,"id":79},{"name":"Special column: Thermochemical reaction engineering and technology","count":17,"id":80},{"name":"专栏:化工过程强化","count":17,"id":81},{"name":"科研动态","count":17,"id":82},{"name":"能量系统优化","count":17,"id":83},{"name":"专栏:材料科学与技术","count":16,"id":84},{"name":"工艺装备","count":16,"id":85},{"name":"行业新闻","count":16,"id":86},{"name":"Carbon dioxide capture, storage and utilization","count":15,"id":87},{"name":"Chemical processes energy saving and emission reduction","count":15,"id":88},{"name":"二氧化碳的捕集、封存及利用","count":15,"id":89},{"name":"减污降碳协同化工节能减排技术","count":15,"id":90},{"name":"Clean and efficient utilization of fossil energy","count":14,"id":91},{"name":"化石能源的清洁高效转化利用","count":14,"id":92},{"name":"Column: Intelligent process equipment and safety","count":13,"id":93},{"name":"Special column:Resource recycling and value-added utilization","count":13,"id":94},{"name":"专栏:智能化工装备与安全","count":13,"id":95},{"name":"资源循环与增值利用","count":13,"id":96},{"name":"Resource and environmental technology","count":12,"id":97},{"name":"Special column:Green biomanufacturing","count":12,"id":98},{"name":"Transfer Processes Integration and Optimization","count":12,"id":99},{"name":"专题报道(生化与医药)","count":12,"id":100},{"name":"专题报道(石油化工)","count":12,"id":101},{"name":"传递过程综合与优化","count":12,"id":102},{"name":"绿色生物制造——《化工进展》创刊40周年系列专栏","count":12,"id":103},{"name":"Carbon dioxide capture and utilization","count":11,"id":104},{"name":"Chemical processes integration and optimization","count":11,"id":105},{"name":"Process intensification column","count":11,"id":106},{"name":"专栏(石化科技与管理)","count":11,"id":107},{"name":"专题报道(化学工程)","count":11,"id":108},{"name":"专题报道(能源与化工)","count":11,"id":109},{"name":"二氧化碳捕集与资源化利用","count":11,"id":110},{"name":"化工过程强化专栏","count":11,"id":111},{"name":"国外化工信息","count":11,"id":112},{"name":"石油化工工艺","count":11,"id":113},{"name":"综述与专论","count":11,"id":114},{"name":"Catalysis and material","count":10,"id":115},{"name":"Special column: Renewable energy chemical engineering","count":10,"id":116},{"name":"Special column:Advanced chemical equipment and intelligent systems engineering","count":10,"id":117},{"name":"专栏","count":10,"id":118},{"name":"催化与材料","count":10,"id":119},{"name":"先进化工装备及智能系统工程——《化工进展》创刊40周年系列专栏","count":10,"id":120},{"name":"市场预测","count":10,"id":121},{"name":"新能源化工——《化工进展》创刊40周年系列专栏","count":10,"id":122},{"name":"节水及水网络优化","count":10,"id":123},{"name":"New and renewable energy","count":9,"id":124},{"name":"Special column: C1 compound bioconversion technologies","count":9,"id":125},{"name":"Special column:Thermochemical conversion and resource utilization of industrial sludge and distillation residue","count":9,"id":126},{"name":"专栏: —碳化合物生物利用与转化","count":9,"id":127},{"name":"专栏:工业污泥/精馏釜残的热化学转化利用","count":9,"id":128},{"name":"二氧化碳的捕集、封存、利用技术","count":9,"id":129},{"name":"化工机械设备","count":9,"id":130},{"name":"化工过程与设备","count":9,"id":131},{"name":"国内化工信息","count":9,"id":132},{"name":"新能源与可再生能源","count":9,"id":133},{"name":"环保与安全","count":9,"id":134},{"name":"综述与发展","count":9,"id":135},{"name":"Biological Transfer Process","count":8,"id":136},{"name":"Energy Saving Technology","count":8,"id":137},{"name":"Special column: Novel technologies for methanol to aromatics and DMMn","count":8,"id":138},{"name":"专栏:煤基甲醇制燃料和化学品新技术","count":8,"id":139},{"name":"图书资讯","count":8,"id":140},{"name":"学会工作","count":8,"id":141},{"name":"征订启事","count":8,"id":142},{"name":"总论","count":8,"id":143},{"name":"成果交流","count":8,"id":144},{"name":"生物传递过程","count":8,"id":145},{"name":"节能技术专栏","count":8,"id":146},{"name":"Industrial catalysi","count":7,"id":147},{"name":"Chemical energy storage","count":6,"id":148},{"name":"Renewable energy development and usage","count":6,"id":149},{"name":"专题报道(精细化工)","count":6,"id":150},{"name":"出版信息","count":6,"id":151},{"name":"化学储能新技术","count":6,"id":152},{"name":"可再生能源的开发利用","count":6,"id":153},{"name":"进展与综述","count":6,"id":154},{"name":"部分大会报告摘要","count":6,"id":155},{"name":"集成耦合与优化技术","count":6,"id":156},{"name":"Transfer Processes in Biology,Resource and Environmental Engineering","count":5,"id":157},{"name":"专题报道(信息化建设)","count":5,"id":158},{"name":"专题报道(化肥技术)","count":5,"id":159},{"name":"形势分析与对策","count":5,"id":160},{"name":"生态、资源和环境工程的传递问题","count":5,"id":161},{"name":"生物与医疗化工","count":5,"id":162},{"name":"集成耦合与优化","count":5,"id":163},{"name":"非常规能源的开发利用","count":5,"id":164},{"name":"Product and market","count":4,"id":165},{"name":"专题报道(材料工程)","count":4,"id":166},{"name":"化工设备","count":4,"id":167},{"name":"国际学术交流","count":4,"id":168},{"name":"非常规水资源利用技术","count":4,"id":169},{"name":"Eneergy processes and technology","count":3,"id":170},{"name":"Enhancement of Heat Transfer and New-type Heat Exchanger","count":3,"id":171},{"name":"Multi-phase Flow Transfer","count":3,"id":172},{"name":"News and Views","count":3,"id":173},{"name":"分析与测试","count":3,"id":174},{"name":"多相流传递","count":3,"id":175},{"name":"强化传热与新型换热器","count":3,"id":176},{"name":"技术交流","count":3,"id":177},{"name":"技术改造","count":3,"id":178},{"name":"报告摘要","count":3,"id":179},{"name":"本刊特稿","count":3,"id":180},{"name":"生产管理及其他","count":3,"id":181},{"name":"石油炼制","count":3,"id":182},{"name":"能源加工技术","count":3,"id":183},{"name":"部分报告摘要","count":3,"id":184},{"name":"Chemical Industry Park","count":2,"id":185},{"name":"Discussion in Transfer Process Teaching Activities","count":2,"id":186},{"name":"Invited Reviews","count":2,"id":187},{"name":"News and views","count":2,"id":188},{"name":"专利摘编","count":2,"id":189},{"name":"专题报道(无机化工)","count":2,"id":190},{"name":"专题报道(材料工程)","count":2,"id":191},{"name":"专题报道(生物化工)","count":2,"id":192},{"name":"书评","count":2,"id":193},{"name":"仪表计算机","count":2,"id":194},{"name":"传递过程教学问题的探讨","count":2,"id":195},{"name":"全年索引","count":2,"id":196},{"name":"动力","count":2,"id":197},{"name":"化工会讯","count":2,"id":198},{"name":"化工管理","count":2,"id":199},{"name":"技术转让","count":2,"id":200}]
