Gao Xiang
Professor, Department of Energy Engineering
PH.D Supervisor
| Phone: | +86 571 8795 1335 |
| Fax: | +86 571 8795 1616 |
| Email: | xgao@zju.edu.cn |
| Office: | Institute for Thermal Power Engineering |
Zhejiang University, Yuquan Campus
38 Zheda Road ,Hangzhou, China 310027
Other Appointments
Deputy Dean, Department of Engineering, Zhejiang University
Professional Activities
1. Director of State Environmental Protection Engineering Center for Coal-Fired Air Pollution Control
2. Vice-director-general of China Association of Machinery Industry for Environmental Protection
3. Vice-chairman of Technology and Standard of Environmental Protection Research Professional Committee of All-China Environmental Federation (hereafter referred to as TSEPRPC OF ACEF)
4. Vice-chairman of Technical Subcommittee (SAC/TC275/SC1) on Machinery Industry of China National Environmental Products Standardization Committee
5. Vice-chairman of Energy and Power Engineering Education Commission of Chinese Association of Higher Education on Electric Power
Education
Ph.D. – Zhejiang University, Engineering Thermal Physics, 1992.3 ~ 1995.9
M. S – Zhejiang University, Engineering Thermal Physics, 1990.9 ~ 1992.2
B.S. – Zhejiang University, Engineering Thermal Physics, 1986.9 ~ 1990.7
Working Experience
Feb., 2009 ~ Current Deputy Dean, Department of Energy Engineering, Zhejiang University
Dec., 2000 ~ Current:
Yangtse River Scholar(Apr., 2010), the Ministry of Education of the People’s Republic of China
Secondary Rate Professor, Zhejiang University(Dec., 2008)
Ph.D. Adviser(Dec., 2001)
Professor(exceptional promotion in Dec., 2000.12), Zhejiang University
Jul, 2007 ~ Jan., 2009 Deputy Director, Institute for Thermal Power Engineering, Zhejiang University
Oct., 1997 ~ Dec., 2000 Associate Professor(exceptional promotion in Oct., 1997), Zhejiang University
Sept., 1995 ~ Oct., 1997 Lecturer, Zhejiang University
Successively to Europe, America, Japan and other universities and research institutions for the cooperative research:
Nov., 2003 ~ Feb., 2004 the University of Utah
Oct., 1999 ~ Dec., 1999 the University of Tokyo
Nov.,2007~ Dec.,2007, Jul,2009~Aug.,2009, the University of KTH
Awards and Honors
Prof. Gao has got one award for The Second Class National Awards for Scientific and Technical Progress, one award for The Second Class National Awards for Technological invention, one award for The First Class Awards for China Machinery Industry Awards for Science and Technology, one award for National Award for outstanding patents of China, three awards for The First Class Awards of Zhejiang Province for Science and Technology, and total five awards for The Second and The Third Class Awards of provincial and ministerial level, etc. At the same time, he has got one ward for the Second Class National Awards for Teaching Achievements, one ward for the Second Class Awards of Zhejiang Province for Teaching Achievements. And he has organized and drafted six national and industry standards, covering the area of de-dust, desulfurization and denitrification.
Prof. Gao also has been honored ‘Zhejiang Province Youth Science and Technology Awards’, ‘Zhejiang Province Youth Award for Excellence’, ‘Hangzhou Youth Science and Technology Awards’, and ‘Hangzhou City Outstanding Scientific and Technological Workers’, etc. And he has been selected as a candidate in the 11th Group of Specially-appointed Yangtse River scholars of Ministry of Education in China and national candidate of 2009 “Millions of Talent Project in the New Century” Initiated by Ministry of Human Resources and Social Security of the People’s Republic of China and winner of Special Government Allowance and a member of MOE Trans-century Excellent Scholar Training Program Fellows and Zhejiang Province "151" Excellent Scholar Training Program Fellows.
Research Interests
Prof. Gao is an expert in Energy-saving Technology, Clean Energy Utilization Technology, Multi-phase Heat Transfer Technology, Flue Gas Dust Removal Technology, Flue Gas Desulfurization Technology, Flue Gas Denitrification Technology, Simultaneous Removal Technology of Multi-pollutants, etc.
Current Projects
[1] Research on the Mechanism of Multi-pollutant Removal under the Function of Plasma Free Radicals and Chemical Catalysis, Chinese National Natural Science Foundation.
[2] Research on the Optimization of FGD Process and Its Application in Pollutant Removal for Metallurgical Refinery Plants and Furnaces, International Program.
[3] Research on Key Flue Gas Denitrification Technologies for Large-scale Thermal Power Plants and Engineering Demonstration, Major Prior Developing Projects in Sci & Tech Planning of Zhejiang Province.
[4] Research on the Mechanism of the Activity of SCR Catalysts Affected by Quality Variation in Utility Plants, Chinese National Natural Science Foundation.
[5] Research on the Mechanism of the Production of Carbonaceous Aerosol by Coal Combustion and Its Control Method, Chinese National Natural Science Foundation.
[6] Research on the Relative Mechanism of Beam Radiation-induced Free Radicals and Monitoring Techniques, Branch Project of National Basic Research Program (973 Project).
[7] Research on the Optimization of the Mechanism of Desulphurization Reaction Enhanced by Multi-component Solutions and Solution Constitution, Branch Project of National Basic Research Program (973 Project).
[8] Research on Multi-pollutant Removal from Flue Gas with Beam Radiation-induced Free Radicals, National High-tech R&D Program of China (863 Project).
[9] Research on Wet-type Technology with An Enhanced High-effective Assembly Integrated by Two Static Electricity Stages and Technology Demonstration, Branch Project of “Eleventh Five-year Plan” for Sci & Tech Research of China.
[10] THE EFFECT OF CHINESE COAL ON CORMETECH SCR CATALYSTS, International Program.
[11] Research on Simultaneous Removal of PM2.5 Particles, SO2, NOx, Hg and VOCs Contained in Flue Gas with Free Radicals Generated by Pulsed Corona Discharge by Means of Beam Radiation, Program for New Century Excellent Talents in University (NCET) of Ministry of Education of China.
[12] Research on Nitrogen Oxides Removal with SCR Technology and Its Engineering, Major Prior Developing Projects in Sci & Tech Planning of Zhejiang Province.
[13] Technological Development on Desulphurization and Sulphuric Acid Production with Activated Coke, Crosswise Tasks Relating to Enterprises.
[14] Research on Systematic Technologies of Flue Gas Desulphurization and Denitrification, Crosswise Tasks Relating to Enterprises.
Publication List
Recent Publications
[1] Xiang Gao* , Shaojun Liu, Yang Zhang, Zhongyang Luo, Kefa Cen. Physicochemical properties of metal-doped activated carbons and relationship with their performance in the removal of SO2 and NO. Journal of Hazardous Materials. in Press (IF=4.144)
[2] Mingjiang Ni , Xu Shen, Xiang Gao*, Zuliang Wu, Hao Lu, Zhongshan Li, Zhongyan Luo, Kefa Cen .Naphthalene Decomposition in a DC Corona Radical Shower discharge. Journal of Zhejiang University Science A. 2011,12(1) :71-77. (IF=0.301)
[3] Xiang Gao* , Shaojun Liu, Yang Zhang, Zhongyang Luo, Mingjiang Ni, Kefa Cen. Adsorption and reduction of NO2 over activated carbon at low temperature. Fuel Processing Technology. 2011, 92(1):139-146 (IF=2.321)
[4] Xiang Gao*; Zhen Du; Hong-lei Ding; Zu-liang WU; Hao Lu; Zhong-yang Luo; Ke-fa Cen. Kinetics of NOx Absorption into (NH4)2SO3 Solution in an Ammonia-based Wet Flue Gas Desulfurization Process. Energy & Fuels. 2010, 24 (11):5876–5882 (IF=2.319)
[5] Xiang Gao*, Xue-sen Du, Li-wen Cui, Yin-cheng Fu, Zhong-yang Luo and Ke-fa Cen. A Ce-Cu-Ti oxide catalyst for the selective catalytic reduction of NO with NH3. Catalysis Communications. 2010,12(4):255-258 (IF=3.000)
[6] Rui-tang Guo, Xiang Gao, Wei-guo Pan, Jian-xing Ren, Jiang Wu and Xiao-bo Zhang. Absorption of NO into NaClO3/NaOH solutions in a stirred tank reactor [J]. Fuel,2010,89(11):3431-3435(IF=3.179)
[7] Xiang Gao*, Honglei Ding, Zhen Du, Zuliang Wu, Mengxiang Fang, Zhongyang Luo, Kefa Cen. Gas–liquid absorption reaction between (NH4)2SO3 solution and SO2 for ammonia-based wet flue gas desulfurization[J]. Applied Energy. 2010,87(8): 2647-2651. (IF=2.209)
[8] Xiang Gao*, Ye Jiang, Yincheng Fu, Yi Zhong, Zhongyang Luo, Kefa Cen. Preparation and characterization of CeO2/TiO2 catalysts for selective catalytic reduction of NO with NH3[J]. Catalysis Communications. 2010, 11(5): 465-469. (IF=3.000)
[9] Xiang Gao*, Ye Jiang, Yi Zhong, Zhongyang Luo, Kefa Cen. The Activity and Characterization of CeO2-TiO2 Catalysts Prepared by the Sol-gel Method for Selective Catalytic Reduction of NO with NH3[J]. Journal of Hazardous Materials. 2010,174(1-3):734-739. (IF=4.144)
[10] Xiang Gao*, Xue-sen Du, Ye Jiang, Yang Zhang, Zhong-yang Luo, Ke-fa Cen . A DFT Study on the Behavior of NO2 in the Selective Catalytic Reduction of Nitric Oxides with Ammonia on a V2O5 Catalyst Surface[J]. Journal of Molecular Catalysis A: Chemical. 2010, 317(1-2): 46-53. (IF=3.135)
Selected Publications
[1] Xiang Gao*, Shaojun Liu, Yang Zhang, Zhongyang Luo, Mingjiang Ni, Kefa Cen. Adsorption and reduction of NO2 over activated carbon at low temperature. Fuel Processing Technology. 2011, 92(1):139-146 (IF=2.321)
[2] Xiang Gao*, Ye Jiang, Yi Zhong, Zhongyang Luo, Kefa Cen. The Activity and Characterization of CeO2-TiO2 Catalysts Prepared by the Sol-gel Method for Selective Catalytic Reduction of NO with NH3[J]. Journal of Hazardous Materials. 2010,174(1-3):734-739. (IF=4.144)
[3] Gao Xiang*, Du Zhen, Ding Honglei, WU Zuliang, lu Hao, Luo Zhongyang, Cen Kefa. Kinetics of NOx Absorption into (NH4)2SO3 Solution in Ammonia-based Wet Flue Gas Desulfurization Process [J]. Energy & Fuels. 2010, 24 (11):5876–5882 (IF=2.319)
[4] Xiang Gao*, Xue-sen Du, Ye Jiang, Yang Zhang, Zhong-yang Luo, Ke-fa Cen . A DFT Study on the Behavior of NO2 in the Selective Catalytic Reduction of Nitric Oxides with Ammonia on a V2O5 Catalyst Surface[J]. Journal of Molecular Catalysis A: Chemical. 2010, 317(1-2): 46-53. (IF=3.135)
[5] GaoXiang*,GuoRui-tang,DingHong-lei,LuoZhong-yang,CenKe-fa.Dissolution rate of limestone for wet flue gas desulfurization in the presence of sulfite[J].Journal of Hazardous Materials. 2009, 168(2-3):1059-1064 (IF=4.144 )
Full Publications
[1] Xiang Gao* , Shaojun Liu, Yang Zhang, Zhongyang Luo, Kefa Cen. Physicochemical properties of metal-doped activated carbons and relationship with their performance in the removal of SO2 and NO. Journal of Hazardous Materials. in Press (IF=4.144)
[2] Mingjiang Ni , Xu Shen, Xiang Gao*, Zuliang Wu, Hao Lu, Zhongshan Li, Zhongyan Luo, Kefa Cen .Naphthalene Decomposition in a DC Corona Radical Shower discharge. Journal of Zhejiang University Science A. 2011,12(1) :71-77. (IF=0.301)
[3] Xiang Gao* , Shaojun Liu, Yang Zhang, Zhongyang Luo, Mingjiang Ni, Kefa Cen. Adsorption and reduction of NO2 over activated carbon at low temperature. Fuel Processing Technology. 2011, 92(1):139-146 (IF=2.321)
[4] Xiang Gao*; Zhen Du; Hong-lei Ding; Zu-liang WU; Hao Lu; Zhong-yang Luo; Ke-fa Cen. Kinetics of NOx Absorption into (NH4)2SO3 Solution in an Ammonia-based Wet Flue Gas Desulfurization Process. Energy & Fuels. 2010, 24 (11):5876–5882 (IF=2.319)
[5] Xiang Gao*, Xue-sen Du, Li-wen Cui, Yin-cheng Fu, Zhong-yang Luo and Ke-fa Cen. A Ce-Cu-Ti oxide catalyst for the selective catalytic reduction of NO with NH3. Catalysis Communications. 2010,12(4):255-258 (IF=3.000)
[6] Rui-tang Guo, Xiang Gao, Wei-guo Pan, Jian-xing Ren, Jiang Wu and Xiao-bo Zhang. Absorption of NO into NaClO3/NaOH solutions in a stirred tank reactor [J]. Fuel,2010,89(11):3431-3435(IF=3.179)
[7] Xiang Gao*, Honglei Ding, Zhen Du, Zuliang Wu, Mengxiang Fang, Zhongyang Luo, Kefa Cen. Gas–liquid absorption reaction between (NH4)2SO3 solution and SO2 for ammonia-based wet flue gas desulfurization[J]. Applied Energy. 2010,87(8): 2647-2651. (IF=2.209)
[8] Xiang Gao*, Ye Jiang, Yincheng Fu, Yi Zhong, Zhongyang Luo, Kefa Cen. Preparation and characterization of CeO2/TiO2 catalysts for selective catalytic reduction of NO with NH3[J]. Catalysis Communications. 2010, 11(5): 465-469. (IF=3.000)
[9] Xiang Gao*, Ye Jiang, Yi Zhong, Zhongyang Luo, Kefa Cen. The Activity and Characterization of CeO2-TiO2 Catalysts Prepared by the Sol-gel Method for Selective Catalytic Reduction of NO with NH3[J]. Journal of Hazardous Materials. 2010,174(1-3):734-739. (IF=4.144)
[10] Xiang Gao*, Xue-sen Du, Ye Jiang, Yang Zhang, Zhong-yang Luo, Ke-fa Cen . A DFT Study on the Behavior of NO2 in the Selective Catalytic Reduction of Nitric Oxides with Ammonia on a V2O5 Catalyst Surface[J]. Journal of Molecular Catalysis A: Chemical. 2010, 317(1-2): 46-53. (IF=3.135)
[11] Gao, X*, Wu, ZL, Luo, ZY , Ni, MJ, Cen, KF. Development of Muli-pollutants Control Technology for Flue Gas From Power Plants in China[A].Proceedings of the International Conference on Power Engineering 2009 (ICOPE-09) [C].2009,Vol 1:9-14(大会特邀报告)
[12] Gao Xiang*, Ding Honglei, Du Zhen, WU Zuliang, Luo Zhongyang, Cen Kefa. Analysis on Leaching Characteristics of Iron in Coal Fly Ash under Ammonia-based WFGD Conditions[J]. Energy & Fuels. 2009, 23 (12): 5916–5919 (IF=2.319)
[13] ChunJiang Yu, Fei Xu, Zhong Yang Luo, Wei Cao, Bo Wei, Xiang Gao, Meng Xiang Fang, Ke Fa Cen. Influences of water vapor and fly ash addition on NO and SO2 gas conversion efficiencies enhanced by pulsed corona discharge[J].Journal of Electrostatics.2009.67(6):829-834 (IF=1.384)
[14] Xu F , Luo ZY , Bo W , Zhao L , Gao X , Fang MX , Cen KF. Experimental investigation on charging characteristics and penetration efficiency of PM2.5 emitted from coal combustion enhanced by positive corona pulsed ESP[J]. Journal of Electrostatics.2009,67(5): 799-806 (IF=1.384)
[15] GaoXiang*,GuoRui-tang,DingHong-lei,LuoZhong-yang,CenKe-fa.Dissolution rate of limestone for wet flue gas desulfurization in the presence of sulfite[J].Journal of Hazardous Materials. 2009, 168(2-3):1059-1064 (IF=4.144)
[16] Xiang Gao*, Rui-tang Guo, Hong-lei Ding, Zhong-yang Luo, Ke-fa Cen. Absorption of NO2 into Na2S solution in a stirred tank reactor[J], Journal of Zhejiang University Science A, 2009,10(3):434-438(IF=0.301)
[17] Xu F, Luo ZY, Cao W, Wang P, Wei B, Gao X, Fang MX,Cen KF.Simultaneous oxidation of NO, SO2 and Hg0 from flue gas by pulsed corona discharge[J]. Journal of Environmental Sciences-China, 2009.21(3): 328-332(IF=1.412)
[18] Yi Zhong, Xiang Gao*, Wang Huo, Zhong-yang Luo, Ming-jiang Ni, Ke-fa Cen. A model for performance optimization of wet flue gas desulfurization systems of power plants[J]. Fuel Processing Technology,2008,89(11):1025-1032(IF=2.321)
[19] Gao Xiang*, Huo Wang, Zhong Yi, Cen Kefa, Ni Ming-jiang, Chen Le-ming. Effects of Magnesium and Ferric Ions on Crystallization of Calcium Sulfate Dihydrate Under the Simulated Conditions of Wet Flue-Gas Desulfurization[J]. Chemical Research in Chinese University,2008,24(6):688-693(IF=0.556)
[20] Gao Xiang*, Huo Wang, Luo Zhong-Yang, Cen Ke-Fa. CFD simulation with enhancement factor of sulfur dioxide absorption in the spray scrubber[J]. Journal of Zhejinag University SCIENCE A,2008,9(11): 1601-1613(IF=0.301)
[21] Z. L. Wu, X. Gao*, Z. Y. Luo, E. Z. Wei, Y. S. Zhang, J. Z. Zhang, M. J. N, K. F. Cen. NOx Treatment by DC Corona Radical Shower with Different Geometric Nozzle Electrodes[J]. Energy & Fuels, 2005,19(6):2279-2286(IF=2.319)
[22] He Lin, Xiang Gao, Zhongyang Luo, Kefa Cen, Zhen Huang. Removal of NOx with radical injection caused by corona discharge[J]. Fuel, 2004,83(10):1349-1355(IF=3.179)
[23] He Lin, Xiang Gao, Zhongyang Luo, Kefa Cen, Meixiang Pei, Zhen Huang. Removal of NOx from wet flue gas by corona discharge[J]. Fuel,2004, 83(9):1251-1255(IF=3.179)
[24] Wu, Zu-Liang, Gao, Xiang, Luo, Zhong-Yang, Ni, Ming-Jiang, Cen, Ke-Fa. Decomposition characteristics of toluene by a corona radical shower system[J]. Journal of Environmental Science-China,2004,16(4):543-547(IF=1.412)
[25] LIN He, GAO Xiang, LUO Zhongyang, CEN Kefa, PEI Meixiang, HUANG Zhen. Removal of NOx by radical injection[J]. Chinese Science Bulletin,2004, 49(18):1991-1995(IF=0.898)
[26] LIN He, GAO Xiang, LUO Zhongyang, GUAN Shipian, CEN Kefa, HUANG Zhen. Removal of NOx from flue gas with radical oxidation combined with chemical scrubber[J]. Journal of Environmental Science-China,2004,16(3):462-465(IF=1.412)
[27] Zhou, Jin-Song, Luo, Zhong-Yang, Gao, Xiang, Ni, Ming-Jiang, Cen, Ke-Fa. Effect of particle loading on heat transfer enhancement in a gas-solid suspension cross flow[J]. Journal of Zhejinag University: Science,2002,3(4):381-386
[28] GAO X*, LUO Z, LIU N,NI M, CEN K. Desulfurization characteristic of calcium-based sorbent during activation process[J]. Journal of Chemical Engineering of Japan,2001, 34(9):1114-1119 (IF= 0.498)
[29] Zhongyang Luo, Chungen Yin, Xuantian Li, Mengxiang Fang, Xiang Gao, Jinsong Zhou, Mingjiang Ni, Kefa Cen. The fractal dimension of calcined limestone and its sulfur-removal reactivity[J]. Energy,1997,22(11):1051~1058 (IF= 2.952)
Conference List
[1] The 11th International Conference on Electrostatic Precipitation(Hangzhou,October 20-24, 2008)
[2] 2009 International Conference on Power Engineering(Japan,Nov. 16-20,2009)
[3] 2010 International Conference on Environmental Protection Technology and Standard(Hangzhou,May 22-25, 2010)
[4] Coal-Gen conference (America, August 10-12,2010)
[5] International Conference on Power Engineering – 2011 (ICOPE-2011)(America, July 11- 15,2011)
Etc.
Patent List
1. Patents Issued
SN Patent Title Licensing Country Patent No. or Registration No. of Software Copyright Issue Date Ranking
Patents of Inventions
1 Circular Suspension Type Semi-dry Fume Purifier China ZL 00 1 31524.2 Jan.19, 2005 2
2 Research on Mercury Control with Semi-dry Adsorption Process During Coal Combustion China ZL 03 142050.8 Sept.21, 2005 6
3 Method for Preparing Coal Burning Fume Mercury-removing Adsorbent China ZL 200410073483.4 May.2, 2007 6
4 Discharge Jet Nozzle Electrode for DC Corona Discharge Smoke Treatment China ZL 200410054045.3 Mar.14, 2007 1
5 Reactor for DC Corona Discharge Free Radical Shower Flue Gas Treatment China ZL 200410054044.9 Mar.14, 2007 1
6 Method for Removing SOx, NOx, PAHs and C12H4Cl4O2 by Combing Radial Shower and Alkaline Absorption China ZL 200410054046.8 Jan.10, 2007 1
7 Waste Gas Treating Corona Discharge Method and Apparatus Homogeneously Reinforced with Heterogeneous Catalyst China ZL 200610154819.9 Feb.4, 2009 4
8 Combined Electrostatic Dust Separator China ZL 200710068431.1 Nov.25, 2009 2
9 Anti-wear Structure of Inner Wall of Circulating Fluid Bed Reactor China ZL 200810059851.8 Nov.4, 2009 8
10 Impacting Liquid Column Flue Gas Purifier China ZL 00 1 31523.4 Aug.13, 2003 1
11 Preparation Apparatus of Composite China ZL 200910096740.9 Mar.16, 1
2011
Absorbent for Semi-dry Flue Gas
Purification Software Copyrights Registrations
12 Design Software for Circular Suspension Type Semi-dry Fume Purifier System with Multi-layer Humidification (Software Copyright) China 2009SR021579 Jun.9, 2009 1
13 Design Software for SCR Fume Denitrification System (Software Copyright) China 2009SR059431 Dec.23, 2009 1
14 Design Software for Simultaneous Multi-pollutant Removal System by Using Wet Calcium Method (Software Copyright) China 2010SR005684 Jan.29, 2010 1
15 Design Software for Simultaneous Multi-pollutant Removal System by Using Wet Ammonia Method (Software Copyright) China 2010SR004379 Jan.25, 2010 1
Patent of Utility Models
16 Turbulent Flue Gas Purifying Tower China ZL99202860.4 May.10, 2000 2
17 Circular Suspension Type Semi-dry Fume Purifier China ZL 00260903.7 Jan.2, 2002 2
18 Impacting Liquid Column Fume Purifier China ZL 00260902.9 Feb.27, 2002 1
19 Circulating Device for Circulating Fluidized Bed Boiler China ZL 01274407.7 Oct.9, 2002 7
20 Discharge Jet Nozzle Electrode for DC Corona Discharge Smoke Treatment China ZL 200420082262.9 Sept.7, 2005 1
21 Reactor for DC Corona Discharge Free Radical Shower Flue Gas Treatment China ZL 200420082261.4 Otc.12, 2005 1
22 Device for Processing Waste Gas by Homogeneous Improving of Corona Discharge by Using Un-homogeneous Catalyst China ZL2006 2 0140281.1 Dec.5, 2007 4
23 Anti-wear Structure of Inner Wall of Circulating Fluid Bed Reactor China ZL 200820083290.0 Jan.28, 2009 8
24 Airflow Uniform Distribution Device of Circulating Fluidized Bed China ZL 200920115902.4 Feb.17, 2010 1
25 An Apparatus for Preparing Composite Absorbent for Fume Purifying China ZL 200920115903.9 Jun.16, 2010 1
26 Discharge Jet Nozzle Electrode for DC Corona Discharge Smoke Treatment China ZL 200920200029.9 Sept.1, 2010 1
27 An Apparatus for Simultaneous Multi-pollutant Removal by Using Wet Limestone-gypsum Method China ZL 200920200027.X Sept. 22, 2010 1
28 Combined Ammonia Spraying Denitrification Equipment for Coal-fired Flue Gas by Using SCR Technology China ZL 200920200025.0 Sept. 22, 2010 1
29 Simultaneous Removing Device for Various Pollutants by Using Electrocatalytical Oxidation Combining Lime-gypsum Method China ZL 201020049336.4 Nov.3, 2010 1
30 A Double-tower Desulphurization and Sulphur Recycle Apparatus by Using Ammonia Method China ZL 200920200026.5 Nov.3, 2010 1
31 Quick Online Method for Diagnosing SCR Catalyst Inactivation during Denitrification China 201020206994.X May.28, 2010 1
2. Patents Submitted and Accepted
SN Patent Title Application Country Application No. Date of Application Ranking
Patents of Invention
1 System and Process for Removing Nitrogen Oxide Contained in Low-temperature Flue Gas China 200810162592.1 Dec.4, 2008 1
2 SCR Catalyst for Flue Gas Control with Composite Support and Preparation Method Thereof China 200810162593.6 Dec.4, 2008 1
4 Airflow Uniform Distribution Device of Circulating Fluidized Bed China 200910096739.6 Mar.16, 2009 1
5 Combined Ammonia Spraying Denitrification Equipment for Coal-fired Flue Gas by Using SCR Technology China 200910153847.2 Nov.16, 2009 1
6 A Double-tower Desulphurization and Sulphur Recycle Apparatus by Using Ammonia Method China 200910153848.7 Nov.16, 2009 1
7 An Apparatus and Method for Simultaneous Multi-pollutant Removal by Using Wet Limestone-gypsum Method China 200910153849.1 Nov.16, 2009 1
8 Simultaneous Removing Device for Various Pollutants by Using Electrocatalytical Oxidation Combining Lime-gypsum Method China 201010039505.0 Jan.5, 2010 1
9 Discharge Jet Nozzle Electrode for DC Corona Discharge Smoke Treatment China 200910153851.9 Nov.16, 2009 1
10 Quick Online Method for Diagnosing SCR Catalyst Inactivation during Denitrification China 201010185875.5 May. 28, 2010 1
11 SCR Denitrification System with Upper-stream Flow Field Structure for Optimizing Ammonia Spraying Device China 201010176144.4 May.18, 2010 1
12 Combined Electrostatic Dust Separator for Multi-pollutant Removal China 200810061584.8 May.7, 2008 2
13 Filtration-type Electrostatic Dust Separator China 200810122083.6 Otc.31, 2008 4