No. | Year of place | Achievement | Prize | Class |
1 | 1995 | CAD Software Package for General Layout Transport | National Award for Excellent Engineering Design Software | Silver |
2 | 1996 | Study on Jinchuan Flash Smelting Process | National Outstanding Science and Technology Award for Key Scientific and Technical Breakthrough during the 8th “Five Years” Period “ | |
3 | 1996 | Study on Anolyte De-coppering in Nickel Electrolysis in Jinchuan | Outstanding Science and Technology award for National Key Scientific and Technological Breakthroughs during the 8th “Five Years” Period “ | |
4 | 1996 | Study Report of Copper Industry Development Strategies in China | “Engineering Consultant Achievement” Granted by China National Association of Engineering Consultants | Second |
5 | 1997 | Nickel Flash Smelting System in the 2nd Phase Project of Jinchuan Nonferrous Metals Corporation | The 7th National Excellent Engineering Design Award | |
6 | 1997 | Zinc Smelting System of Northwest Lead-Zinc Smelter | The 7th National Excellent Engineering Design Award | Bronze |
7 | 1997 | Road Atlas | Standard Design Award of National Excellent Project | Gold |
8 | 1997 | Drawing Software for General Layout Design | The 8th National Excellent Engineering Design Award | Silver |
9 | 1998 | Assessment Report of Dexing Copper Mine’s 3rd Phase Project of Jiangxi Copper Co., Ltd. | “Excellent Consultant” awarded by China National Association of Engineering Consultants | First |
10 | 1999 | Design of Zinc Plant Modification & Expansion Project with an increased capacity of 100,000 tons for Zhuzhou Smelter | The 8th National Excellent Engineering Design Award | Silver |
11 | 1999 | Shandong Jiaojia Gold Mine Expansion Project Design | The 8th National Excellent Engineering Design Award | Silver |
12 | 1999 | Copper Smelting Expansion Project Design of the 2nd Phase Project for Jinchuan Nonferrous Metals Corporation | The 8th National Excellent Engineering Design Award | Bronze |
13 | 1999 | Xinjiang Axi Gold Mine Project Design | The 8th National Excellent Engineering Design Award | Bronze |
14 | 1999 | 96J333(I) Anticorrosive Engineering of Buildings | The 8th National Excellent Engineering Design Award | Silver |
15 | 1999 | Study and Application of Comprehensive Mining and Mineral Processing of Extreme Large-size Low-grade Porphyry Copper Deposit | National Science and Technology Improvement Award | First |
16 | 1999 | Feasibility Study of Energy Conservation Technique Improvement Project of Copper Smelting System for Yunnan Smelter | “Engineering Consultant Achievement” Granted by China National Association of Engineering Consultants | Second |
17 | 2000 | Study and Industrialization of Paste Filling Technique | National Science and Technology Improvement Award | Second |
18 | 2000 | Technical Study of Reinforced Production Process of Underground Mine at High Stage | National Science and Technology Improvement Award | Second |
19 | 2000 | Daye Smelter Technical Improvement Project | The 9th National Excellent Engineering Design Award | Gold |
20 | 2000 | Trial Production Line of Polysilicon Commercial Plant with Production Capacity of 100 t/a | The 9th National Excellent Engineering Design Award | Silver |
21 | 2000 | Deep mining project of Sanshandao Gold Mine | The 9th National Excellent Engineering Design Award | Bronze |
22 | 2001 | Feasibility Study of Industrialization Demonstration Engineering of Polished Monocrystalline Silicon Wafers with Diameter of 8 Inches | “Engineering Consultant Achievement” Granted by China National Association of Engineering Consultants | First |
23 | 2001 | Study of Pilot Plant of Copper Extraction from Dexing Low-grade Copper Sulfide Mine by Bioleaching | Excellent Science and Technology Award for National Key Scientific and Technological Breakthroughs during the 9th “Five Years” Period | |
24 | 2001 | Combined Mining Method of Open Pit and Underground Mine under complicated conditions | Excellent Science and Technology Award for National Key Scientific and Technological Breakthroughs during the 9th “Five Years” Period | |
25 | 2002 | Feasibility Study Report of Introducing Ausmelt Technique into Yunnan Tin Company Ltd. and following Technique Reform | Granted by China National Association of Engineering Consultants | First |
26 | 2003 | Feasibility Study Report of Industrialization Demonstration Engineering of Lithium Resource in Zabuye, Tibet | Granted by China National Association of Engineering Consultants | First |
27 | 2004 | Feasibility Study of Smelting Process and Environmental Protection Project for Tongling Jinchang Smelter | Granted by China National Association of Engineering Consultants | Third |
28 | 2004 | Feasibility Study Report of Deep Resource Exploration and Development & Technique Reform Project of Environmental Protection and Energy Conservation for Yunnan Chinghong Zinc & Germanium Co., Ltd. | Granted by China National Association of Engineering Consultants | Second |
29 | 2004 | Oxygen Bottom-blowing—Blast Furnace Reduction Process for Lead Smelting | National Science and Technology Improvement Award | Second |
30 | 2004 | Installation of Oxygen Bottom-blowing - Blast Furnace Reduction Process for Lead Smelting for Commercial Production | Granted by China Exploration & Design Association | Gold |
31 | 2004 | Introduction of Ausmelt Technique into Yunnan Tin Company Ltd. and following Technique Reform | Granted by China Exploration & Design Association | Silver |
32 | 2004 | Modification and Expansion Project of Yigezhuang Gold Mine in ZhaoyuanCity of ShandongProvince | Granted by China Exploration & Design Association | Bronze |
33 | 2004 | Pretreatment of Arsenic Refractory Gold Concentrate by Bacteria Oxidization for Yantai Gold Smelter | Granted by China Exploration & Design Association | Bronze |
34 | 2004 | ISA Furnace System Project for Yunnan Copper Co., Ltd. | Granted by China National Project Construction Quality Award Committee | Silver |
35 | 2004 | Ausmelt Smelting System Project of Yunnan Tin Company Ltd. | Granted by China National Project Construction Quality Award Committee | Silver |
36 | 2005 | Oxygen Bottom-blowing—Blast Furnace Reduction Process for Lead Smelting and Its Installation for Commercial Production | National Science and Technology Improvement Award | Second |
