孫運蘭

入選江蘇省“六大人才高峰”、安徽省學術技術帶頭人、省高校優秀支持計畫，省級資源共享課程《工程熱力學》主講教師，榮獲省級教學成果三等獎，省多媒體教學課件比賽二等獎。

近年來，主持省級質量工程2項，省級重大教學研究項目1項，一般項目1項，發表教學研究論文10篇。

指導中國大學生創業計畫競賽獲國家級銀獎1次，安徽省金獎1次，全國節能減排大賽三等獎2次，“網際網路+”大學生創新創業大賽二等獎1次，指導國家級大學生創新創業項目6項。

主講本科課程：《工程燃燒學》、《工程熱力學》、《能源與動力工程專業英語》等；

研究生課程：《研究生專業英語》、《納米微米尺度傳熱》等。

累計指導博士研究生3人，碩士研究生30餘人，畢業20人，考取985等院校博士8人，出國深造2人

近年來，主持國家自然科學基金項目4項(面上項目3項, 青年項目1項)、省自然科學基金項目1項，省教育廳基金項目1項，高校優秀青年人才支持計畫重點項目1項，省學術技術帶頭人及後備人選科研活動經費資助項目1項，產學研結合項目多項，主研參與國家安全重大基礎研究項目973子課題項目、國家科技部國家重點研發計畫、武器裝備預研基金等各類項目多項。發表學術期刊論文80餘篇，被SCI收錄52篇，申請各類專利80餘件，授權50餘件，其中發明專利授權20餘件。

國家自然科學基金委通訊評議專家；教育部學位中心-學位論文評審專家；《潔淨煤技術》和《安徽工業大學學報》自然科學版編委；《Combustion & Flame》、《Energy & Fuels》、《Applied Energy》、《Journal of Thermal Analysis and Calorimetry》、《International Journal of Hydrogen Energy》、《Journal of Energetic Material》、《New Journal of Chemistry》、《中國電機工程學報》等國內外期刊審稿人。

1. 主持國家自然科學基金面上項目（No: 52076016）

2. 主持國家自然科學基金面上項目（No: 51676001）

3. 主持國家自然科學基金面上項目（No: 51376007）

4. 主持國家自然科學基金青年項目（No: 50806001）

5. 主持江蘇省“六大人才高峰”高層次人才選拔培養資助項目（No：JNHB-097）

6. 主持安徽省自然科學基金項目（No: 1208085ME70）

7. 主持安徽省教育研究基金項目（No：KJ2008B184）

8. 主持安徽中煙工業公司科技計畫項目。

9. 主持2016年高校優秀青年人才支持計畫重點項目 (No：gxyqZD2016074)

10. 主持2017年安徽省學術技術帶頭人及後備人選科研活動經費資助項目（No：2017H131）。

11. 主研國家科技部國家重點研發計畫項目（No：2016YFB0601500）子課題。

12. 主研國家自然科學基金項目（No：51306001）

13. 主研國家自然科學基金項目（No：51206001）

14. 主研安徽省自然科學基金項目（No：1608085ME104）

15. 主研武器裝備預研基金（國防重點實驗室基金）項目（No：9140C3503150706）

16. 主研國家安全重大基礎研究項目973子課題項目（No：51337-02-03-02）

17. 主研國家自然科學基金項目（No：50476025）

18. 主研國家自然科學基金項目（No：50176047）

1. Nano-sized copper oxide enhancing the combustion of aluminum/kerosene-based nanofluid fuel droplets, Combustion and Flame, Vol.240, 112028, 2022.

2. Study on the combustion performance of nano/micro-sized aluminum powders regulated by polydopamine interface, Combustion and Flame, Vol.240, 112027, 2022.

3. Influencing mechanism of alkali metals on the adsorption property of NH₃, NO, O₂ and dehydrogenation reaction of NH₃ on the β-MnO₂ (110) surface: A DFT + U study. Fuel. Vol.318, 123470, 2022.

4. Understanding the roles of copper dopant and oxygen vacancy in promoting nitrogen oxides removal over iron-based catalyst surface: A collaborative experimental and first-principles study. Journal of Colloid and Interface Science. Vol.612, 584-597, 2022.

5. Microscopic mechanism of α-rhombic crystal boron nanocluster oxidation in oxygen. Fuel. Vol.310, 122448, 2022.

6. Enhancing low-temperature SCR de-NOx Mn-Ce catalyst based on rice husks char by KOH and H₃PO₄ activation. Journal of Chemical Technology & Biotechnology. 2021.

7. Ignition and Combustion Characteristics of Al/n-Heptane Nanoslurry Fuel Droplets via a Laser-Ignition Model. Journal of Energy Engineering. Vol.147, No.6, 04021057, 2021.

8. Experimental study on the evaporation and combustion characteristics of double Al/n-heptane based nanofluid fuel droplets in high temperature environment. Thermochimica Acta. Vol 705, 179049, 2021.

9. Fluorinated graphene improving thermal reaction and combustion characteristics of nano-aluminum powder. Thermochimica Acta. Vol 705, 179038, 2021.

10. Insight into the dissociation mechanism of ethanol molecule over the nano-aluminum surface: a density functional theory study. Journal of Materials Science. Vol. 56, 17096–17111, 2021.

11. The promoting mechanism of doping Mn, Co, and Ce on gas adsorption property and anti-SO₂ oxidation over γ-Fe₂O₃ (001) surface: A density functional theory study. Colloids and Surfaces A: Physicochemical and Engineering Aspects. Vol 628, 127218, 2021.

12. Atmospheric-Pressure Pyrolysis Study of Chlorobenzene Using Synchrotron Radiation Photoionization Mass Spectrometry，The Journal of Physical Chemistry A , Vol.125, No.9, 1949-1957, 2021.

13. Effect of doping Cr on NH₃ adsorption and NO oxidation over the FexOy/AC surface: A DFT-D study. Journal of Hazardous Materials, Vol.416, 125798, 2021.

14. Sodium fluoroaluminate promoting the combustion of micron-sized aluminum powder with different particle sizes in carbon dioxide. Energy. Vol.226, No.2, 120393, 2021.

15. A DFT-D study on the reaction mechanism of selective catalytic reduction of NO by NH₃ over the Fe₂O₃/Ni(111) surface. New Journal of Chemistry. Vol.45, 6458-6468, 2021.

16. Heavy metal poisoning resistance of a Co-modified 3Mn10Fe/Ni low-temperature SCR deNOx catalyst. Environmental Science and Pollution Research. Vol.28, No.12, 14546-14554, 2021.

17. Adsorption mechanism of NH₃, NO, and O₂ molecules over FexOy/AC catalyst surface: a DFT-D3 study. New Journal of Chemistry. Vol.45, No.6, 3169-3180, 2021.

18. Effects of alkali metal poisoning and cobalt modification on the NH₃ adsorption behavior on the MnxOy/Ni (111) surface: A DFT-D study. Applied Surface Science Vol.509, 144901, 2020.

19. Effects of Mn, Fe, and Ce doping on the adsorption property of gas molecules and oxidation of SO₂ on the NiO (100) surface. Computational Materials Science, Vol.180, 109717, 2020.

20. Density functional theory study on the reaction mechanism of selective catalytic reduction of NO by NH₃ over the γ-Fe₂O₃ (001) surface. Computational and Theoretical Chemistry Vol.1192, 113052, 2020.

21. Adsorption properties of NH₃, NO, and O₂ molecules over the FeO (100) and oxygen-defected FeO (100) surfaces: a density functional theory study. Molecular Physics, e1836413, 2020.

22. Heterogeneous condensation for electric arc furnaces fine particles removal. Powder Technology, Vol.374, 323-329, 2020.

23. Heavy metal poisoning resistance of a Co-modified 3Mn10Fe/Ni low-temperature SCR deNOx catalyst. Environmental Science and Pollution Research. Vol.24, No.31, 24584–24592, 2020.

24. Reaction characteristics of micron-sized Al powder with adding Al/CuO nano-thermite in heated steam. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2020.

25. Potassium fluoride improving the ignition and combustion performance of micron-sized aluminum particles in high temperature water vapor, Energy Sources Part A-Recovery Utilization and Environmental Effects, 2019.

26. Promoting Eciency of Na₂CO₃ on the Hydrogen Production of Micrometer-Aluminum/Water Reaction, Journal of Chemical Engineering of Japan, Vol. 52, No. 6, 586–592, 2019.

27. Enhancing ignition and combustion characteristics of micron-sized aluminum powder in steam by adding sodium fluoride, Combustion and Flame, Vol.205, 68-79, 2019.

28. Enhancing low-temperature SCR denitrification and alkali metal poisoning resistance of 3Mn10Fe/Ni catalyst by adding Co. Catalysis Science & Technology, Vol.9, No.12, 3214–3225, 2019.

29. Effects of Ammonium Perchlorate Particle Size on the Aluminum Agglomeration in Primary Combustion of the Ammonium Perchlorate/Aluminum Binary Mixture with a High Aluminum Content, Energy & Fuels, Vol.33, No.9, 9302-9308, 2019.

30. Ignition and Combustion Characteristics of Heptane-Based Nanofluid Fuel Droplets, Energy & Fuels, Vol.33, No.10, 10282−10289, 2019.

31. Adsorption mechanism of NH₃, NO, and O₂ molecules over Mn_xO_y/Ni (111) surface: a density functional theory study, Journal of Materials Science. Vol. 54, No. 23, 14414-14430, 2019.

32. Investigation of low-temperature selective catalytic reduction of NOx with ammonia over Cr-promoted Fe/AC catalysts, Environmental Science and Pollution Research, Vol.23, No.32, 33067–33075, 2019.

33. Novel Natural Manganese Ore NH₃-SCR Catalyst with Superior Alkaline Resistance Performance at the Low Temperature, Canadian Journal of Chemical Engineering. Vol. 97, 911-916, 2019.

34. Promotional effect of Mn modification on DeNOx performanceof Fe/nickel foam catalyst at low temperature. Environmental Science and Pollution Research. Vol.26, No.10, 10117-10126, 2019.

35. Mechanistic insight into the selective catalytic reduction of NO by NH₃ over α−Fe₂O₃ (001): A density−functional theory study, Catalysis Science & Technology. Vol. 9, No. 1, 116-124, 2019.

36. Effects of Carbon Dioxide and Water Vapor Addition on Benzene and PAH Formation in a Laminar Premixed CH₄/O₂/Ar Flame. Combustion Science and Technology, Vol.191, No.10, 1866-1897, 2019.

37. Thermal Reaction Characteristics of Nano/micron-sized Aluminum mixtures in Carbon Dioxide，Russian Journal of Physical Chemistry B. Vol. 12, No. 3, 438-447, 2018.

38. Effect of Mn addition on the Low-Temperature NH₃-SCR of NOx over Fe₂O₃/Activated Coke Catalysts: Experiment and Mechanism. Asia-Pacific Journal of Chemical Engineering，Vol.13, No.5, e2231, 2018.

39. De-NOx performance and mechanism of Mn based low-temperature SCR catalysts supported on foamed metal nickel. Journal of the Brazilian Chemical Society, Vol. 29, No. 8, 1680-1689, 2018.

40. Combustion characteristics of nano-aluminum cloud in different atmospheres，Industrial & Engineering Chemistry Research. Vol. 57, No.1, 129-138, 2018.

41. Study of the Alkali–metal Poisoning Resistance of a Co–modified Mn/Ni–Foam Catalyst in Low–temperature Flue Gas SCR DeNOx, Journal of Materials Science. Vol.53, No. 13, 9674-9689, 2018.

42. Investigation of Low-Temperature Selective Catalytic Reduction of NOx with Ammonia over Mn-Modified Fe₂O₃/AC Catalysts. Journal of the Brazilian Chemical Society, Vol. 29, No. 1, 79-87, 2018.

43. Adsorption properties of NO, NH₃, and O₂ over β−MnO₂(110) surface，Journal of Materials Science. Vol.53, No. 16, 11500–11511, 2018.

44. In situ electrodeposition of mesoporous aligned α-Fe₂O₃ nanoflakes for highly sensitive nonenzymatic H₂O₂ sensor. Applied Surface Science. No.31, 302-306, 2018.

45. Hydrogen generation by means of the combustion of aluminum powder/sodium borohydride in steam. International Journal of Hydrogen Energy. Vol 42, No. 6, 3804–3812, 2017.

46. Performance study of modified calcium magnesium acetate (MCMA) in the process of high temperature CO₂ capture and the application of spent MCMA for sequential SO₂ removal, Asia‐pacific Journal of Chemical Engineering. Vol. 12, No. 4, 595-604, 2017.

47. The effects of different additives on the ignition and combustion characteristics of micron-sized aluminum powder in steam, Energy & Fuels, Vol.31, No.8, 8674−8684, 2017.

48. The effect of NiCl₂ and Na₂CO₃ on hydrogen production by Al/H₂O system. International Journal of Hydrogen Energy. Vol 42, No. 6, 3586–3592, 2017.

49. The effects of additives on the combustion characteristics of aluminum powder in steam, RSC Advances, Vol.7, No. 10, 5725–5732, 2017.

50. Natural manganese ore catalyst for low-temperature selective catalytic reduction of NO with NH₃ in coke-oven flue gas. Environmental Science and Pollution Research. Vol.24, No.31, 24584–24592, 2017.

51. Effects of Additives on the Hydrogen Generation of Al–H₂O Reaction at Low Temperature. International Journal of Energy Research. Vol. 41, No.14, 2020–2033, 2017.

52. Numerical simulation of the combustion of nano-aluminum in carbon dioxide. Acta Astronautica, Vol. 139, 428-434, 2017.

53. Thermal Reaction Mechanisms of Nano- and Micro-scale Aluminum Powders in Carbon Dioxide at Low Heating Rate. Journal of Thermal Analysis and Calorimetry. Vol. 124, No. 3, 1727-1734, 2016.

54. Oxidation Kinetics of Nano-aluminum in a Carbon Dioxide Environment, Progress in Reaction Kinetics and Mechanism, Vol.41, No.1, 14-22, 2016.

55. Thermal Reaction Characterization of Micron-Sized Aluminum Powders in CO₂. Russian Journal of Physical Chemistry B. Vol. 10, No. 4, 644–650, 2016.

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1. 2015 研究生國家獎學金 孫 蓉

2. 2016 研究生國家獎學金 孫 蓉

3. 2017 研究生國家獎學金 王啟昌

4. 2018 研究生國家獎學金 尹壽來

5. 2019 研究生國家獎學金 石 偉

6. 2021 研究生國家獎學金 謝超越

1. 美國普渡大學 黨洪昌

2. 美國普渡大學 戈婷婷

3. 東南大學 孫 蓉

4. 東南大學 王啟昌

5. 東南大學 李國波

6. 南京航空航天大學 李 凡

7. 南京理工大學 陳九玉

8. 南京理工大學 石 偉

9. 上海交通大學 方祺隆

10. 上海交通大學 謝超越