• 2008-09-01-2012-06-28
  清华大学
  Power Engineering and Engineering Thermophysics
• 2005-09-01-2008-06-30
  山东大学
  工程热物理
• 2001-09-01-2005-07-01
  山东大学
  热能与动力工程
• 1998-09-01-2001-07-01
  山东省济宁市育才中学

• 2012-07 — Now
  山东大学能源与动力工程学院

(1)何孟泽. Completion of Waste Heat Recovery and CO2 Conversion Simultaneously Based on the Flue Gas Chemical Recuperative Cycle: A Review .Energies .2025 ,18 (2)

(2)李军. Study on sulfur migration and carbon consumption during regeneration of SO2-loaded activated carbon: Effect of alkali/alkaline earth metals .Journal of the Energy Institute .2022 (102):118

(3)李军. Study on sulfur migration in activated carbon adsorption-desorption cycle: Effect of alkali/alkaline earth metals .《JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA》 .2021 (99):119

(4)逄栋杰. A Review on AI-driven Thermal Treatment of Solid Waste: Emission Control and Process Optimization .Green Energy and Resources .2025 (无)

(5) Thermoconversion of organic solid waste in a spouted bed reactor: A review .《Particuology》 .2025 (100)

(6) Parametric study of the decomposition of methane for COx-free H2 and high valued carbon using Ni-based catalyst via machine-learning simulation .Green Energy and Resources .2025 ,3 (1)

(7) Innovative research on one-step regeneration and reduction of saturated desulfurization coke: Reactivating desulfurization performance and sulfur recovery .Fuel .2025 ,382 (PartB)

(8)王子昂. Research progress on heat effects of coal pyrolysis process .Journal of Analytical and Applied Pyrolysis .2024 (183)

(9)赵媛. Exergy analysis of a novel ironmaking process combining coal gasification with the smelting reduction of iron ore .Fuel .2024 (372)

(10)朱晓. An updated study on NO catalytic oxidation over activated carbon: The effect of pore structure and a dual-site mechanism .Fuel .2022 (311)

(11)周滨选. Study of the reaction mechanism for preparing powdered activated coke with SO2 adsorption capability via one-step rapid activation method under flue gas atmosphere .中国化学工程学报 .2024 ,65 :158-168

(12)周滨选. The temperature effect and system equilibrium of preparing powdered activated coke sorbent in a rapid carbonization-activation two-step process .ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS .2024 ,46 (1):839-853

(13)周滨选. Two-stage gasification process simulation and optimization of pulverized coal for hydrogen-rich production using Aspen plus .International journal of hydrogen energy .2023

(14)Yan, Min. Effect of coal type on the physical properties and CO₂ adsorption performance of activated coke prepared by a single-step method .ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS .2023 ,45 (2):5281

(15)李军. Study on thermal regeneration of saturated activated coke coupled with SO2 carbothermal reduction to produce elemental sulfur .Energy .2023 ,278

(16)李军. New insights into the influence of SO2 as an activator on the physicochemical properties of carbon materials and the influence of S-doping on SO2 adsorption: Experimental and density functional theory study .Chemical Engineering Journal .2023 ,474

(17)李军. Study on thermal regeneration of saturated activated coke coupled with SO2 carbothermal reduction to produce elemental sulfur .Energy .2023 (278):1

(18)李军. Study on sulfur migration and carbon consumption during regeneration of SO2-loaded activated carbon: Effect of alkali/alkaline earth metals .Journal of the Energy Institute .2022 ,102 :118-127

(19)常景彩. Evolution of the physicochemical properties and SO(2 )adsorption performance of powdered activated coke during adsorption-desorption cycle .Journal of Analytical and Applied Pyrolysis .2022 ,167 (105671):1

(20)李军. Evolution of the physicochemical properties and SO2 adsorption performance of powdered activated coke during adsorption–desorption cycle .Journal of Analytical and Applied Pyrolysis .2022 (167)

(21)张健. Effects of Cobalt-Doped Modification on the Catalytic Reduction of SO2 with CO over an Iron/BFS Catalyst .Energy and Fuels .2021 ,35 (24):20250

(22)常景彩. Study on sulfur migration in activated carbon adsorption-desorption cycle: Effect of alkali/alkaline earth metals .《JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA》 .2020 (99):119

(23)任文. Catalytic performance and reaction mechanism of an iron-loaded catalyst derived from blast furnace slag for the CO-SO2 reaction to produce sulfur .Applied Catalysis A: General .2020 ,606

(24)王涛. Preparation of powdered activated coke for SO2 removal using different coals through a one-step method under high-temperature flue gas atmosphere .Journal of Analytical and Applied Pyrolysis .2021 (153)

(25)周滨选. Comparative study on the preparation of powdered activated coke for SO2 adsorption: One-step and two-step rapid activation methods .Fuel .2021 ,288

(26)周滨选. Optimization of process parameters for preparation of powdered activated coke to achieve maximum SO2 adsorption using response surface methodology .FRONTIERS IN ENERGY .2021 ,15 (1):159

(27)姚连升. Study on the evolution of internal and external water of lignite during microwave drying and the moisture reabsorption characteristics of dried lignite .Energy Sources, Part A: Recovery, Utilization and Environmental Effects .2020

(28)付加鹏. Pore structure and VOCs adsorption characteristics of activated coke powders derived via one-step rapid pyrolysis activation method .Asia-Pacific Journal of Chemical Engineering .2020 ,15 (5)

(29)付加鹏. Rapid pyrolysis of pulverized coal for the preparation of nanostructured powder activated coke .Material Science Forum .2019 (962)

(30)付加鹏. One-step rapid pyrolysis activation method to prepare nanostructured activated coke powder .Fuel .2020 ,262

(31)李军. Effects of roughness on the performance of axial flow cyclone separators using numerical simulation method .Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy .2019 ,233 (7):914

(32)周滨选. Multi-objective optimization of the preparation parameters of the powdered activated coke for SO2 adsorption using response surface methodology .Journal of Analytical and Applied Pyrolysis .2020 ,146

(33)李军. Multi-objective optimization of axial-flow-type gas-particle cyclone separator using response surface methodology and computational fluid dynamics .ATMOSPHERIC POLLUTION RESEARCH .2020 ,11 (9):1487

(34)王涛. Oxidation mechanism of pyrite concentrates (PCs) under typical circulating fluidized bed (CFB) roasting conditions and design principles of PCs' CFB roaster .Chemical Engineering and Processing: Process Intensification .2020 ,153

(35)王涛. Oxidation mechanism of pyrite concentrates (PCs) under typical circulating fluidized bed (CFB) roasting conditions and design principles of PCs CFB roaster .Chemical Engineering and Processing: Process Intensification .2020 (153)

(36)王涛. Experimental investigation of thermal effect in coal pyrolysis process .Fuel Processing Technology .2020 ,200 (1)

(37)王涛. Multi-objective optimization of the preparation parameters of the powdered activated coke for SO2 adsorption using response surface methodology .Journal of Analytical and Applied Pyrolysis .2020 ,146 (3)

(38)付加鹏. One-step rapid pyrolysis activation method to prepare nanostructured activated coke powder .Fuel .2020 ,262 (2)

(39)付加鹏. Effects of temperature, oxygen and steam on pore structure characteristics of coconut husk activated carbon powders prepared by one-step rapid pyrolysis activation process. .Bioresource Technology .2020 ,310 (8)

(40)付加鹏. Pore structure and VOCs adsorption characteristics of activated coke powders derived via one-step rapid pyrolysis activation method .Asia-Pacific Journal of Chemical Engineering .2020 ,e2503 (5)

(41)朱晓. 生物质活性炭烟气脱硫脱硝的研究进展 .生物质化学工程 .2018 (02)

(42)冯太. Reduction of SO<inf>2</inf>to elemental sulfur with H<inf>2</inf>and mixed H<inf>2</inf>/CO gas in an activated carbon bed .Chem. Eng. Res. Des. .2017 ,121 :191

(43)宋占龙. Kinetics of Pyrolysis of Straw Bales by Microwave Heating .2009 ,0 (0)

(44)马春元. 水蒸气及氧气复合气氛对活性半焦孔隙结构演化的影响 .《燃烧科学与技术》 .2015

(45)马春元. 低氧快速热解过程中氧气体积分数ui活性焦孔隙结构的影响 .《煤炭学报》 .2014

(46)宋占龙. Kinetics of Pyrolysis of Straw Bales by Microwave Heating .Asia-Pacific Power and Energy Engineering Con .2009 ,0 (0)

(47)马春元. 水蒸气及氧气复合气氛对活性半焦孔隙结构演化的影响 .《燃烧科学与技术》 .2015

(48)马春元. 低氧快速热解过程中氧气体积分数ui活性焦孔隙结构的影响 .《煤炭学报》 .2014

(49)宋占龙. Kinetics of Pyrolysis of Straw Bales by Microwave Heating .Asia-Pacific Power and Energy Engineering Con .2009 ,0 (0)

(50)冯太. Reduction of SO<inf>2</inf>to elemental sulfur with H<inf>2</inf>and mixed H<inf>2</inf>/CO gas in an activated carbon bed .Chem. Eng. Res. Des. .2017 ,121 :191

(51)马春元. 水蒸气及氧气复合气氛对活性半焦孔隙结构演化的影响 .《燃烧科学与技术》 .2015

(52)马春元. 低氧快速热解过程中氧气体积分数ui活性焦孔隙结构的影响 .《煤炭学报》 .2014

(53)朱晓. 生物质活性炭烟气脱硫脱硝的研究进展 .生物质化学工程 .2018 (02)

1. 一种气化渣高值资源化利用方法

2. 一种生产高热值煤气且低残炭量的煤粉气化装置及工艺

3. 一种三段炉两步法制备脱硫用粉状活性焦的系统及工艺

4. 一种利用工业废气在碳气凝胶表面生长绒毛碳纳米管的方法

5. 一种能够防止粘结失流的直接还原铁系统及方法

6. 一种还原乏气循环的气基直接还原铁的系统与方法

7. 一种旋流铁壁熔融冶炼装置及方法

8. 一种协同富氢气化与重整热解的合成气生产方法和系统

9. 高硫高氧冶炼烟气调质协同碳材料活化的系统及方法

10. 一种烧结机篦式生产直接还原铁的系统及方法

11. 一种三段炉两步法制备脱硫用粉状活性焦的系统及工艺

12. 利用碳基材料还原脱硫解析气回收硫磺的错流移动床装置

13. 一种炭热-还原气耦合还原SO2制备硫磺的装置和方法

14. 煤粉炭化活化两段式制备粉状活性焦的方法与系统及工艺

15. 一种铁矿粉鼓泡床还原反应的方法与系统

16. 一种联产煤气及粉状活性焦的系统及方法

17. 一种生物质闪速热解气化并脱除焦油的工艺、系统及应用

18. 一种粉状活性焦联合脱硫和脱硝的系统

19. 水渣基CO催化还原二氧化硫制备硫磺的催化剂和制备方法及应用

20. 一种垃圾焚烧飞灰和工业固废的资源化利用方法

21. Air preheater and NOx reduction integrated reactor and reaction method

22. 一种超重力脱除气体中的细颗粒物的装置

23. 一种超重力脱除气体中的细颗粒物的装置

24. 一种用于粉状载硫活性焦解吸再生的鼓泡流化床装置

25. 一种用于粉状载硫活性焦解吸再生的鼓泡流化床装置

26. 一种催化剂提效活性焦炭烟气吸附脱硫与解析再生的方法及系统

27. 一种催化低氮燃烧罩式装置及工艺

28. 协同CO低温脱硝的烟气再热消白烟系统

29. 协同CO低温脱硝的烟气再热消白烟工艺及方法

30. 一种循环流化床脱硫塔底部排焦结构

31. 一种臭氧氧化联合脱硫和脱硝的系统

32. 一种臭氧氧化联合脱硫和脱硝的系统及方法

33. 一种粉状活性焦联合脱硫和脱硝的系统及方法

34. 一种粉状活性焦流化床脱硫喷氨联合脱硝的系统

35. 一种粉状活性焦流化床脱硫喷氨联合脱硝的系统及方法

36. 粉末活性焦双循环联合臭氧氧化脱硫脱硝的装置

37. 粉末活性焦双循环联合臭氧氧化脱硫脱硝的装置及方法

38. 一种粉末活性焦双循环流化床脱硫系统

39. 一种粉末活性焦双循环流化床脱硫系统及方法

40. 一种粉状活性焦流化床脱硫尾部喷氨联合脱硝的系统

41. 一种粉状活性焦流化床脱硫尾部喷氨联合脱硝的系统及方法

42. 一种喷动化床-分级还原的SO2还原制备硫磺工艺

43. 一种粉末活性焦快速制备的方法

44. 一种粉末活性焦快速制备装置

45. 一种粉末活性焦快速制备装置和方法

46. 一种利用煤粉快速制备脱硫用粉末状活性焦的工艺及装置

47. 一种逆向流动换热与反应的装置与方法

48. 一种适合于气固两相分离的轴向旋流器及系统

49. 一种适合于气固两相分离的轴向旋流器、方法及系统

50. 树脂矿物复合材料的递变分层制备方法

51. 一种生产高热值煤气且低残炭量的煤粉气化装置

52. 一种基于气流床的粉焦吸附VOCs性能评价方法及系统

53. 一种基于气流床的粉焦脱汞性能评价方法及系统

54. 一种基于气流床的粉焦脱汞性能评价方法及系统

55. 一种粉煤气化协同铁矿石还原的工艺及装置

56. 一种穿透式可装载催化剂模块

57. 一种利用煤粉快速制备脱硫用粉末状活性焦的工艺及装置

58. 一种粉末活性焦快速制备装置和方法

59. 钢铁企业自给式绿色脱硝系统

60. 钢铁企业自给式绿色脱硝系统及工艺

1. 基于废弃物增值循环利用的绿色低碳产业技术体系研究, 2023-01-01-2025-12-31

2. （包干项目）基于高能位点及氧空位精准调控的微波诱导光热化学循环高效制氢机制研究, 2022-11-01-2025-12-30

3. 循环流化床气化提效技术和装备研发, 2022-12-26-2025-12-31

4. （包干项目）煤热解过程热效应及其调控方法研究, 2021-12-23-2024-12-31

5. 工业窑炉协同处置城市固废全过程污染控制关键技术研究与工程示范, 2020-11-01-2024-04-30

6. 山东大学新泰市人民政府齐鲁交通材料技术开发有限公司共建“山东大学新泰工业技术研究院”协议, 2018-12-11-2026-12-10

7. 蓄热耦合分步变氛围的CO脱硝过程及其协同机理研究, 2016-10-29-2019-06-30

8. 基于微波-热烟气联合干燥的褐煤水分协同脱除机理研究, 2013-08-15-2016-12-31

9. 湖南华电常德发电有限公司1号机组（660MW）烟气脱硝改造工程脱硝装置流场模拟, 2017-03-23-2017-12-31

10. 常压煤粉气化技术开发-2, 2018-06-30-2021-12-31

11. 大宗工业及城市固废制备高性能高附加值绿色建材-6, 2017-08-01-2019-07-31

12. 粉状活性焦原位制备及流态化吸附技术-2, 2017-07-01-2021-06-30

13. 电厂煤粉原位制备活性焦及烟气综合净化技术外协费合同, 2015-12-14-2018-12-31

14. 烟气氛围下富碳材料中纳米孔隙的形成及演变机制研究, 2015-08-17-2018-12-31

15. 电厂煤粉原位制备活性焦及烟气综合净化技术研究, 2013-09-30-2017-10-01

16. 多组分氧化气体氛围下煤质粉末不定型活性焦的制备机理研究, 2013-08-01-2014-07-30

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