List of Engineering Research Centers of the Ministry of Education |
technical field | S/N | Name of Engineering Center | Supporting unit | Project initiation time | Construction status |
New materials | one | Shape memory material | | one thousand nine hundred and eighty-nine | Accepted and open |
two | Metal electronic information materials | | two thousand and one | Accepted and open |
three | Application of Rare Earth Permanent Magnets | |
four | Aluminium alloy strong rheological technology and equipment | |
five | Advanced coatings | |
six | Molded building materials | |
seven | Ecological cement | |
eight | Special engineering plastics | |
nine | Organic silicon compounds and materials | |
ten | Medical biomaterials | |
eleven | Sensitive ceramics | |
twelve | Advanced material preparation technology | |
thirteen | Advanced glass manufacturing technology | | two thousand and six | Accepted and open |
fourteen | Photoelectric functional materials | | Planned acceptance |
fifteen | Stealth Materials and Technology | |
sixteen | Wear resistant materials and technology | |
seventeen | Green building materials and manufacturing | |
eighteen | High and new electrochemical technology | |
nineteen | Marine materials and protection technology | |
twenty | Subsequent energy materials and devices | |
twenty-one | Material evaluation and optimal design | |
twenty-two | New metal material preparation and forming technology and equipment | |
twenty-three | Advanced battery materials | | two thousand and seven | Construction period |
twenty-four | Nanometer mineral materials and their applications | |
twenty-five | Material composite and advanced dispersion technology | |
twenty-six | Fiber composite building materials and structures | |
twenty-seven | Synthetic resin and special fiber | |
twenty-eight | Environmentally friendly polymer materials | |
twenty-nine | High performance polymer and molding technology | |
thirty | Organic polymer optoelectronic materials | |
thirty-one | Advanced building materials | |
thirty-two | Surface and structure modified inorganic functional materials | |
thirty-three | Tribology and material protection | |
thirty-four | Processing Technology of Brittle Materials | |
thirty-five | Deep processing technology of magnesium based materials | |
thirty-six | Fire safety materials and technology | | 2008-2009 | Construction period |
thirty-seven | Energy saving drag reducing additive | |
thirty-eight | Traffic pavement materials | |
thirty-nine | Environmentally friendly functional materials | |
forty | Metal wear-resistant materials and surface technology | |
forty-one | Green ceramics | | two thousand and nineteen | Accepted [1] |
forty-two | Concrete technology for marine environment | | 2008-2009 | Construction period |
forty-three | Electrochemical energy storage materials and technologies | |
forty-four | High Performance Copper Alloy Materials and Forming Process | |
Modern service industry | forty-five | Digital Community | | two thousand and one | Accepted and open |
forty-six | Database and Business Intelligence | |
forty-seven | Digital textile and garment technology | |
forty-eight | Civil Information Technology | |
forty-nine | GIS software and its application | |
fifty | Educational Information Technology | | two thousand and six | Accepted and open |
fifty-one | Digital medicine | | Planned acceptance |
fifty-two | Digital learning support technology | |
fifty-three | Digitization of radio and television | |
fifty-four | Digital Learning and Educational Public Service | | two thousand and seven | Construction period |
fifty-five | Spatial information technology | |
fifty-six | Mine digitalization | China University of Mining and Technology (Xuzhou) |
fifty-seven | Tibetan Information Technology | |
fifty-eight | Digital Library | | 2008-2009 | Construction period |
fifty-nine | Marine Information Technology | |
sixty | Western resources and environment geographic information technology | |
sixty-one | Database of representative buildings and ancient buildings | |
Public safety | sixty-two | Neutron application technology | | two thousand and one | Accepted and open |
sixty-three | Radiation technology and radiation imaging | | two thousand and six | Accepted and open |
sixty-four | Technical equipment for mine production safety inspection | |
sixty-five | Mine ecological restoration | |
sixty-six | Mine ecological safety | | Planned acceptance |
sixty-seven | Sand prevention and control | Beijing Normal University |
sixty-eight | Chemical safety | Beijing University of Chemical Technology |
sixty-nine | Building steel structure | Tongji University |
seventy | Building detection and reinforcement | WuHan University |
seventy-one | Protection of historical and cultural heritage | Shaanxi Normal University |
seventy-two | Power safety and efficient utilization | Huazhong University of Science and Technology |
seventy-three | Coal mine disaster prevention and rescue | Henan University of Technology |
seventy-four | Road Traffic Safety and Environment | Tongji University | two thousand and seven | Construction period |
seventy-five | Road disaster prevention and traffic safety | Changsha University of Technology |
seventy-six | Western coal mine safety | Xi'an University of Science and Technology |
seventy-seven | Disaster prevention and mitigation of civil engineering in western China | Lanzhou University of Technology |
seventy-eight | Nuclear technology application | | two thousand and nineteen | Accepted [1] |
seventy-nine | Medical protection against nuclear, chemical and biological terrorism | Southern Medical University | 2008-2009 | Construction period |
eighty | Power and traffic safety monitoring and energy-saving technology | Changsha University of Technology |
Light industry and textile | eighty-one | food | Sun Yat-sen University | one thousand nine hundred and eighty-seven | Accepted and open |
eighty-two | Functional food | Jiangnan University | two thousand and one | Accepted and open |
eighty-three | Industrial textiles | Donghua University | two thousand and six | Accepted and open |
eighty-four | Sugar industry and comprehensive utilization | Guangxi University | Planned acceptance |
eighty-five | Food biotechnology | Tianjin University of Science and Technology |
eighty-six | Animal food safety assurance technology | Dalian University of Technology | two thousand and seven | Construction period |
eighty-seven | Modern textile equipment technology | Zhejiang University of Technology |
eighty-eight | Advanced textile composites | Tianjin Polytechnic University |
eighty-nine | Flax processing technology | Qiqihar university |
ninety | Textile equipment | Donghua University |
ninety-one | Clean production of textile printing and dyeing | Wuhan Textile University |
ninety-two | Polymer material processing equipment | Beijing University of Chemical Technology | 2008-2009 | Construction period |
ninety-three | Ecological dyeing and finishing technology | Zhejiang University of Technology |
ninety-four | Warp knitting technology | Jiangnan University |
ninety-five | Quality and safety control technology of dairy products | Inner Mongolia University |
ninety-six | Marine food | Dalian Polytechnic University |
petrochemical industry | ninety-seven | Supergravity | Beijing University of Chemical Technology | two thousand and one | Accepted and open |
ninety-eight | Chemical Process Simulation and Optimization | Xiangtan University |
ninety-nine | New technology of oil and gas processing | China University of Petroleum (East China) |
one hundred | Green refining process | Tianjin University | two thousand and six | Accepted and open |
one hundred and one | Process System Engineering | East China University of Science and Technology | Planned acceptance |
one hundred and two | Seawater resource utilization and green chemical technology | Hebei University of Technology |
one hundred and three | Comprehensive utilization and clean processing of phosphorus resources | Sichuan University |
one hundred and four | Coal conversion technology | Taiyuan University of Technology |
one hundred and five | Advanced Catalysis | Hunan University |
one hundred and six | Large scale industrial reactor engineering | East China University of Science and Technology |
one hundred and seven | fine chemicals | Shanxi University |
one hundred and eight | Natural gas development | Southwest Petroleum University |
one hundred and nine | Exploration and development of complex oil and gas reservoirs | China University of Petroleum (Beijing) |
one hundred and ten | Development and utilization of gas energy | China University of Petroleum (Beijing) | two thousand and seven | Construction period |
one hundred and eleven | Offshore oil and gas development and safety assurance | Ocean University of China |
one hundred and twelve | Oilfield chemistry | Southwest Petroleum University |
one hundred and thirteen | New equipment and technology for petroleum and petrochemical industry | China University of Petroleum (East China) |
one hundred and fourteen | Intelligent Process System Engineering | Beijing University of Chemical Technology |
one hundred and fifteen | Resource (salt lake) process engineering | East China University of Science and Technology |
one hundred and sixteen | Pharmaceutical Engineering and Process Chemistry | East China University of Science and Technology |
one hundred and seventeen | Biological refining | Beijing University of Chemical Technology |
one hundred and eighteen | Chemical pollution control | Nanjing University of Technology |
one hundred and nineteen | Clean energy chemical technology | Tsinghua University |
one hundred and twenty | Efficient energy storage | Nankai University |
one hundred and twenty-one | Multiphase separation technology and equipment | China University of Petroleum (Beijing) | 2008-2009 | Construction period |
one hundred and twenty-two | Green and efficient process equipment and energy saving | East China University of Science and Technology |
one hundred and twenty-three | High pressure process equipment and safety | Zhejiang University |
one hundred and twenty-four | Process equipment and its remanufacturing | Zhejiang University of Technology |
one hundred and twenty-five | Advanced chemical utilization technology of energy in northern Shaanxi | Northwestern University |
one hundred and twenty-six | Development and utilization of phosphorus resources | Wuhan University of Engineering |
one hundred and twenty-seven | Comprehensive utilization of oil shale | Northeast Electric Power University |
one hundred and twenty-eight | Development and treatment of low permeability and extra low permeability reservoirs in western China | Xi'an Shiyou University |
Energy transportation | one hundred and twenty-nine | Power quality | Anhui University | two thousand and one | Accepted and open |
one hundred and thirty | New technology of power transmission and transformation | Hunan University |
one hundred and thirty-one | Intelligent transportation system | Southeast University |
one hundred and thirty-two | Modern traffic management system | Sichuan University |
one hundred and thirty-three | Port logistics technology and equipment | Wuhan University of Technology |
one hundred and thirty-four | PV system | Hefei Polytechnic University |
one hundred and thirty-five | Solar power generation and refrigeration | Shanghai Jiaotong University |
one hundred and thirty-six | Safety of water conservancy and hydropower projects | Hohai University |
one hundred and thirty-seven | Tunnel and underground works | Beijing Jiaotong University | two thousand and six | Accepted and open |
one hundred and thirty-eight | Rail transit electric drive | Beijing Jiaotong University |
one hundred and thirty-nine | Building energy conservation | Tsinghua University |
one hundred and forty | Equipment and technology for expressway construction and maintenance | Chang'an University | Planned acceptance |
one hundred and forty-one | Safety of large highway structures | Chang'an University |
one hundred and forty-two | Environmental thermal technology | Shandong University |
one hundred and forty-three | Traffic safety control and equipment for waterway and highway | Wuhan University of Technology |
one hundred and forty-four | Bridge structure and materials in mountainous area | chongqing jiaotong university |
one hundred and forty-five | Lightning protection and grounding technology | WuHan University | two thousand and seven | Construction period |
one hundred and forty-six | Container Supply Chain Technology | Shanghai Maritime University |
one hundred and forty-seven | High speed railway network management | Beijing Jiaotong University |
one hundred and forty-eight | Railway environmental vibration and noise | East China Jiaotong University |
one hundred and forty-nine | Structural reliability and application detection technology of rail vehicles | Beijing Jiaotong University |
one hundred and fifty | Aerospace motor system technology | Northwestern Polytechnical University |
one hundred and fifty-one | Aerospace power supply technology | Nanjing University of Aeronautics and Astronautics |
one hundred and fifty-two | New motor and special electromagnetic equipment | Huazhong University of Science and Technology |
one hundred and fifty-three | Coal based slurry fuel | China University of Mining and Technology (Beijing) |
one hundred and fifty-four | Power saving | North China Electric Power University |
one hundred and fifty-five | Nuclear power technology | Tsinghua University | 2008-2009 | Construction period |
one hundred and fifty-six | Advanced lighting technology | Fudan University |
one hundred and fifty-seven | Ship power technology | Harbin Engineering University |
one hundred and fifty-eight | Shipping simulation technology | Shanghai Maritime University |
one hundred and fifty-nine | Energy saving and emission reduction of energy power plant | Huazhong University of Science and Technology | 2008-2009 | Construction period |
one hundred and sixty | Power Electronics Energy Saving Technology and Equipment | Shandong University |
one hundred and sixty-one | Renewable energy power generation technology | Hohai University |
one hundred and sixty-two | Renewable energy power generation and grid connection control | Xinjiang University |
one hundred and sixty-three | Energy saving and emission reduction in metallurgy | Kunming University of Science and Technology |
Biomedicine | one hundred and sixty-four | Resource medicine | Beijing Normal University | two thousand and one | Accepted and open |
one hundred and sixty-five | Marine biotechnology in the South China Sea | Sun Yat-sen University |
one hundred and sixty-six | Traditional Chinese Medicine and New Drug Development | Beijing University of Traditional Chinese Medicine |
one hundred and sixty-seven | Modern Chinese patent medicine | Guangzhou University of Traditional Chinese Medicine |
one hundred and sixty-eight | Genomic drugs | Jinan University |
one hundred and sixty-nine | Protein and peptide new drugs | Nanjing University | two thousand and six | Accepted and open |
one hundred and seventy | Pharmaceutical powder technology | Hunan University of Traditional Chinese Medicine |
one hundred and seventy-one | Clean production of pesticides and pharmaceutical intermediates | Shandong Normal University |
one hundred and seventy-two | regenerative medicine | Peking University | Planned acceptance |
one hundred and seventy-three | Development and Utilization of Characteristic Medicinal Biological Resources in Southwest China | Guizhou University |
one hundred and seventy-four | Modern minimally invasive medical equipment and technology | Shanghai University of Technology |
one hundred and seventy-five | Artificial organs and materials | Jinan University |
one hundred and seventy-six | Bioreactor and Drug Development | Jilin Agricultural University |
one hundred and seventy-seven | New veterinary vaccine | yangzhou university |
one hundred and seventy-eight | Traditional Chinese Medicine Resources | China Union Medical University |
one hundred and seventy-nine | Biotransformation and biological purification | Zhejiang University of Technology |
one hundred and eighty | Industrial microorganism | Fujian Normal University |
one hundred and eighty-one | Microbial functional genomics and detection technology | Nankai University |
one hundred and eighty-two | Gene vaccine | Sun Yat-sen University |
one hundred and eighty-three | Application technology of drug genome | Central South University | two thousand and seven | Construction period |
one hundred and eighty-four | Cell engineering and antibody drugs | Shanghai Jiaotong University |
one hundred and eighty-five | Antitumor natural drugs | Harbin University of Commerce |
one hundred and eighty-six | Digital diagnosis and treatment equipment | Southern Medical University |
one hundred and eighty-seven | Local diagnosis and treatment technology in body cavity | Peking University |
one hundred and eighty-eight | Modern optometry technology and equipment | Wenzhou Medical College |
one hundred and eighty-nine | Molecular medicine | Huaqiao University |
one hundred and ninety | Modern Preparation Technology of Traditional Chinese Medicine | Shanghai University of Traditional Chinese Medicine |
one hundred and ninety-one | Modern Chinese Medicine Discovery and Preparation Technology | Tianjin University of Traditional Chinese Medicine |
one hundred and ninety-two | Standardized production of traditional Chinese medicine | Beijing University of Traditional Chinese Medicine |
one hundred and ninety-three | Comprehensive Development and Utilization of Traditional Chinese Medicine in Western China | Chengdu University of TCM |
one hundred and ninety-four | Standardization and Standardization of Traditional Chinese Medicine Processing | Nanjing University of Traditional Chinese Medicine | 2008-2009 | Construction period |
one hundred and ninety-five | Ethnic Medicine and Development and Application of Traditional Chinese Medicine | Guiyang Medical College |
one hundred and ninety-six | Molecular diagnosis | Xiamen University |
one hundred and ninety-seven | Preclinical studies on primates and large animals | Peking University |
one hundred and ninety-eight | Animal biological drugs | Huazhong Agricultural University |
one hundred and ninety-nine | Drug technology for diagnosis and treatment of blood and vascular diseases | Suzhou University |
two hundred | Endogenous preventive drugs | capital medical university |
two hundred and one | Active substance biotechnology | Chongqing Normal University |
Agriculture, forestry, animal husbandry and fishery | two hundred and two | Garden environment | Beijing Forestry University | two thousand and one | Accepted and open |
two hundred and three | rape | Huazhong Agricultural University |
two hundred and four | Maize breeding | China Agricultural University |
two hundred and five | Agricultural genetic engineering | Northeast Normal University |
two hundred and six | Reproduction and breeding techniques of polyploid fish | Hunan Normal University | two thousand and six | Accepted and open |
two hundred and seven | | |
two hundred and eight | Forestry ecological engineering | Beijing Forestry University | Planned acceptance |
two hundred and nine | Forestry biological agent | Northeast Forestry University |
two hundred and ten | Biomass conversion | Nanchang University |
two hundred and eleven | Biological control | South China Agricultural University |
two hundred and twelve | Large scale breeding technology of fine livestock | Inner Mongolia University |
two hundred and thirteen | Southwest crop breeding | Sichuan Agricultural University |
two hundred and fourteen | wheat breeding | Northwest Agriculture and Forestry University |
two hundred and fifteen | Silkworm resources and molecular improvement | Southwest University |
two hundred and sixteen | Breeding of new tropical crop varieties | Hainan University |
two hundred and seventeen | Grapes and wine | Ningxia University |
two hundred and eighteen | cotton | Xinjiang Agricultural University |
two hundred and nineteen | Mariculture | Ocean University of China |
two hundred and twenty | Fruit and vegetable processing | China Agricultural University |
two hundred and twenty-one | Deep processing of starch and vegetable protein | South China University of Technology |
two hundred and twenty-two | Modern agricultural equipment and facilities | China Agricultural University |
two hundred and twenty-three | Grassland agriculture | Lanzhou University |
two hundred and twenty-four | Oasis Agricultural Engineering and Informatization | Shihezi University |
two hundred and twenty-five | Resource saving fertilizer | Nanjing Agricultural University |
two hundred and twenty-six | Biochemistry of agricultural products | Hefei Polytechnic University |
two hundred and twenty-seven | Protein feed resources of agricultural and sideline products | Wuhan University of Light Industry | two thousand and seven | Construction period |
two hundred and twenty-eight | Plant biotechnology and utilization of genetic resources | WuHan University |
two hundred and twenty-nine | Forestry Biomass Materials and Energy | Beijing Forestry University |
two hundred and thirty | Sustainable development and utilization of bioenergy | yunnan normal university |
two hundred and thirty-one | Animal disease resistance and nutrition biotechnology | Sichuan Agricultural University |
two hundred and thirty-two | Dairy biotechnology | Inner Mongolia Agricultural University |
two hundred and thirty-three | Edible and medicinal fungi | Jilin Agricultural University |
two hundred and thirty-four | Fungal biotechnology | Anhui Agricultural University |
two hundred and thirty-five | Plant space breeding | South China Agricultural University |
two hundred and thirty-six | Creation of hybrid cotton | Nanjing Agricultural University |
two hundred and thirty-seven | Citrus | Southwest University |
two hundred and thirty-eight | Grain storage and security | Henan University of Technology |
two hundred and thirty-nine | Utilization of tropical polysaccharide resources | Hainan University |
two hundred and forty | Dredging technology | Hohai University |
two hundred and forty-one | Feed safety and efficient utilization | Hunan Agricultural University | 2008-2009 | Construction period |
two hundred and forty-two | plant growth regulator | China Agricultural University |
two hundred and forty-three | biomass materials | Southwest University of Science and Technology |
two hundred and forty-four | Southern mountain agriculture | Southwest University |
two hundred and forty-five | Wetland agriculture in the middle reaches of the Yangtze River | Changjiang University |
two hundred and forty-six | Efficient utilization of modern agricultural water resources in arid areas | Ningxia University |
two hundred and forty-seven | Innovation and utilization of horticultural crop germplasm | Nanjing Agricultural University |
two hundred and forty-eight | Preservation of South Horticultural Products | South China Agricultural University |
two hundred and forty-nine | Xinjiang Characteristic Fruit and Vegetable Storage and Processing | Shihezi University |
two hundred and fifty | Northwest potato | qinghai university |
two hundred and fifty-one | Processing and utilization of grain by-products | heilongjiang bayi agricultural university |
two hundred and fifty-two | Processing and application of bee products | Fujian Agriculture and Forestry University |
two hundred and fifty-three | Modern industrial technology of eel | Jimei University |
two hundred and fifty-four | Refrigeration technology | Tianjin University of Commerce |
Electronics and Communications | two hundred and fifty-five | Semiconductor Materials and Devices | Nanchang University | two thousand and one | Accepted and open |
two hundred and fifty-six | Field Emission Display Technology | Fuzhou University | two thousand and six | Accepted and open |
two hundred and fifty-seven | multimedia communication | Ningbo University |
two hundred and fifty-eight | mobile communication | Chongqing University of Posts and Telecommunications | Planned acceptance |
two hundred and fifty-nine | Microprocessor and system | Peking University |
two hundred and sixty | RF integrated circuits and systems | Southeast University |
two hundred and sixty-one | Autonomous satellite navigation and positioning technology | National University of Defense Science and Technology |
two hundred and sixty-two | Automotive Electronic Drive Control and System Integration | Harbin University of Science and Technology |
two hundred and sixty-three | Automotive Electronics and Control Technology | Hunan University |
two hundred and sixty-four | antenna | Xi'an University of Electronic Science and Technology |
two hundred and sixty-five | Embedded system integration | Northwestern Polytechnical University |
two hundred and sixty-six | Embedded system | Zhejiang University |
two hundred and sixty-seven | Nano optoelectronic integration and advanced equipment | East China Normal University |
two hundred and sixty-eight | Thin film optoelectronic technology | Nankai University |
two hundred and sixty-nine | Navigation instrument | Harbin Engineering University |
two hundred and seventy | Earth observation and navigation | Peking University | two thousand and seven | Construction period |
two hundred and seventy-one | Navigation, guidance and control technology | Beijing University of Technology |
two hundred and seventy-two | Advanced aviation navigation and air traffic control technology | Beijing University of Aeronautics and Astronautics |
two hundred and seventy-three | Digital laser imaging and display | Suzhou University |
two hundred and seventy-four | Precision electronic manufacturing equipment | South China University of Technology |
two hundred and seventy-five | Electronic test technology and instrument | University of Electronic Science and Technology |
two hundred and seventy-six | Communication Devices and Technologies | Tianjin University of Technology |
two hundred and seventy-seven | Micro/nano optoelectronic materials and devices | Xiamen University |
two hundred and seventy-eight | Automatic test and instrument technology | Harbin Institute of Technology |
two hundred and seventy-nine | Solid state devices and integration technology | Tsinghua University |
two hundred and eighty | Digital home | Sun Yat-sen University | 2008-2009 | Construction period |
two hundred and eighty-one | Intelligent acquisition technology and application of spatiotemporal data processor | WuHan University |
two hundred and eighty-two | New Microwave Detection Technology | University of Electronic Science and Technology |
two hundred and eighty-three | Short range wireless communication and network | South China University of Technology |
two hundred and eighty-four | Broadband wireless communication and display technology | Nanjing University of Posts and Telecommunications |
two hundred and eighty-five | Autonomous control technology of aircraft | Nanjing University of Aeronautics and Astronautics |
two hundred and eighty-six | High power semiconductor lighting application system | Tianjin Polytechnic University |
Network and Computer Application | two hundred and eighty-seven | information network | Beijing University of Posts and Telecommunications | two thousand and one | Accepted and open |
two hundred and eighty-eight | Computer Network Technology | Tsinghua University |
two hundred and eighty-nine | Network information security | Shanghai Jiaotong University | two thousand and six | Planned acceptance |
two hundred and ninety | Advanced Computer Application Technology | Beijing University of Aeronautics and Astronautics |
two hundred and ninety-one | Computer Aided Product Innovation Design | Zhejiang University |
two hundred and ninety-two | Enterprise digital technology | Tongji University |
two hundred and ninety-three | Data storage system and technology | Huazhong University of Science and Technology |
two hundred and ninety-four | Key information security technology | Fudan University |
two hundred and ninety-five | Security guarantee technology of complex network system | Northeastern University | two thousand and seven | Construction period |
two hundred and ninety-six | Virtual reality application | Beijing Normal University |
two hundred and ninety-seven | Domestic basic software | National University of Defense Technology |
two hundred and ninety-eight | Open source software and real-time system | Lanzhou University |
two hundred and ninety-nine | Network technology and application software | Jilin University |
three hundred | Intelligent Decision Making and Information System Technology | Hefei Polytechnic University |
three hundred and one | Hardware/Software Co design Technology and Application | East China Normal University |
manufacturing industry | three hundred and two | Rapid Prototyping Manufacturing Technology | | two thousand and one | Accepted and open |
three hundred and three | continuous extrusion | Dalian Jiaotong University | two thousand and six | Accepted and open |
three hundred and four | Aerospace complex product manufacturing | | Planned acceptance |
three hundred and five | Manufacturing technology of aviation complex structure | Nanjing University of Aeronautics and Astronautics |
three hundred and six | Advanced manufacturing technology of automobile structural parts | Beijing University of Technology |
three hundred and seven | Automobile development | |
three hundred and eight | Light power | |
three hundred and nine | New energy vehicles | |
three hundred and ten | Intelligent appliances | |
three hundred and eleven | Advanced strip production equipment and control | |
three hundred and twelve | Rolling equipment and complete technology | |
three hundred and thirteen | Advanced metallurgical process and equipment for special steel | |
three hundred and fourteen | Waste oil recycling technology and equipment | Chongqing Gongshang University |
three hundred and fifteen | New equipment for nonferrous metallurgy | Lanzhou University of Technology |
three hundred and sixteen | Intelligent automation technology for nonferrous metallurgy | |
three hundred and seventeen | Metallurgical automation and detection technology | Wuhan University of Science and Technology |
three hundred and eighteen | New light source technology and equipment | Southeast University |
three hundred and nineteen | Safety critical industrial measurement and control technology | |
three hundred and twenty | Simulation test technology | |
three hundred and twenty-one | Manufacturing management technology | |
three hundred and twenty-two | Industrial CT nondestructive testing technology | |
three hundred and twenty-three | Innovative scientific instruments | | two thousand and seven | Construction period |
three hundred and twenty-four | Servo control technology | |
three hundred and twenty-five | Advanced drive energy-saving technology | Southwest Jiaotong University |
three hundred and twenty-six | Mechanical testing technology and equipment | |
three hundred and twenty-seven | Hydraulic vibration and control | Anhui University of Technology |
three hundred and twenty-eight | Ship control engineering | Harbin Engineering University |
three hundred and twenty-nine | heavy machinery | Taiyuan University of Science and Technology |
three hundred and thirty | Space robot technology | Beijing University of Posts and Telecommunications |
three hundred and thirty-one | Near net rolling forming of parts | Beijing University of Science and Technology |
three hundred and thirty-two | Complex path processing technology and equipment | Xiangtan University |
three hundred and thirty-three | Integration technology of instrumentation and automation system | Hangzhou University of Electronic Science and Technology |
three hundred and thirty-four | Digital instrument for process industry | Northeastern University |
three hundred and thirty-five | Laser direct manufacturing of large monolithic metal components | Beijing University of Aeronautics and Astronautics | 2008-2009 | Construction period |
three hundred and thirty-six | Construction technology and equipment for major projects | Tongji University |
three hundred and thirty-seven | Advanced design and manufacturing of heavy vehicle parts | Guangxi Institute of Technology |
three hundred and thirty-eight | Steel Manufacturing Execution System Technology | Beijing University of Science and Technology |
three hundred and thirty-nine | Advanced mining equipment | Hunan University of Science and Technology |
three hundred and forty | Special operation equipment | Nanjing University of Technology |
three hundred and forty-one | Crystal growth equipment and control technology | Xi'an University of Technology |
three hundred and forty-two | Non ferrous metal metallurgical process technology | Northeastern University |
three hundred and forty-three | Monitoring and control of industrial equipment | Dalian University of Technology |
three hundred and forty-four | Micro nano manufacturing and measurement technology | Tianjin University |
three hundred and forty-five | Micro/nano inertial sensor and integrated measurement | |
three hundred and forty-six | Measurement and Testing Technology and Instruments | |
three hundred and forty-seven | Visual Control Technology and Application | |
three hundred and forty-eight | Optical instruments and systems | |
three hundred and forty-nine | Intelligent rehabilitation device and detection technology | |
Resources and environment | three hundred and fifty | Membrane and water treatment technology | | two thousand and one | Accepted and open |
three hundred and fifty-one | Water treatment and water environment restoration | | two thousand and six | Accepted and open |
three hundred and fifty-two | Efficient utilization of advantageous mineral resources in western China | | Planned acceptance |
three hundred and fifty-three | Agriculture and ecological restoration in arid areas | |
three hundred and fifty-four | Underground engineering of mine | |
three hundred and fifty-five | Rock soil drilling and protection | |
three hundred and fifty-six | Efficient development and application technology of tungsten resources | | two thousand and seven | Accepted and open |
three hundred and fifty-seven | Hydraulic engineering simulation and safety monitoring | |
three hundred and fifty-eight | Exploration of concealed nonferrous and precious metal deposits | | Construction period |
three hundred and fifty-nine | Large underground caverns | |
three hundred and sixty | Agricultural water saving and water resources | |
three hundred and sixty-one | Groundwater pollution control and remediation | | 2008-2009 | Construction period |
three hundred and sixty-two | Geothermal resources development technology and equipment | |
three hundred and sixty-three | Low carbon building environmental equipment and system energy conservation | |
three hundred and sixty-four | Tropical and subtropical water ecological engineering | |
three hundred and sixty-five | Reclamation and coastal soft soil engineering technology | |
three hundred and sixty-six | Construction and maintenance technology of mountain roads | |
three hundred and sixty-seven | Building energy efficiency control and evaluation | |
three hundred and sixty-eight | Ecological environment in the Three Gorges reservoir area | |
three hundred and sixty-nine | Biofilm water purification and utilization technology | |
three hundred and seventy | Comprehensive utilization of water resources in cold and dry areas | |
