王鵬照檢視原始碼討論檢視歷史
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王鵬照,男,福州大學石油化工學院教授。
人物簡歷
教育經歷
2013-2018,中國石油大學(華東),化學工程與技術,博士
2009-2013,中國石油大學(華東),化學工程與工藝,學士
工作經歷
2018-2020 福州大學,石油化工學院,博士後
2020-至今,福州大學,石油化工學院,副研究員
研究領域
輕質烷烴高效轉化(異構化、催化裂解等)催化劑和工藝、貴金屬催化劑
科研項目
1.國家自然科學基金面上科學基金項目:「金屬-酸」活性位的調控及其在烷烴雙支鏈異構反應中催化協同的基礎研究,2022-2025,項目負責人
2.國家重點研發計劃「工程科學與綜合交叉」重點專項項目子課題:「高通量聚光太陽能熱化學轉化儲能理論與方法」之子課題「基於載能體位型分布的反應單元性能調控理論與方法」,2022-2026,子課題負責人
3.國家自然科學基金青年科學基金項目: 基於氫溢流機理的雙金屬耐硫型烷烴異構化催化劑的設計和可控制備,2020-2022,項目負責人
4.中海油橫向研究課題:異丁烷正構化製備正丁烷催化劑的技術研究,2022-2023,項目負責人
5.重質油國家重點實驗室2021年度開放課題:基於「金屬-酸」雙活性中心微納尺度調控的高 選擇性烷烴雙支鏈異構化催化劑的可控制備,2021-2023,項目負責人
6.中國博士後科學基金面上資助項目,基於氫溢流機理的耐硫型烷烴異構化催化劑的可控合成,2019-2020,項目負責人
學術成果
論文
[1] P. Wang, J. Zhang, G. Wang, C. Li*, C. Yang. Nature of active sites and deactivation mechanism for n-butane isomerization over alumina-promoted sulfated zirconia, J. Catal. 2016, 338, 124-134. (Featured Article)
[2] P. Wang, J. Zhang, C. Han, C. Yang, C. Li*, Effect of modification methods on the surface properties and n-butane isomerization performance of La/Ni-promoted SO42−/ZrO2-Al2O3, Appl. Surf. Sci. 2016, 378, 489-495.
[3] P. Wang, M. Zhang, W. Zhang, C. Yang, C. Li*, Isomerization of n-butane over SO42-/Al2O3-ZrO2 in a circulated fluidized bed reactor: Prospects for commercial application, Ind. Eng. Chem. Res. 2017, 56(30), 8456-8464.
[4] P. Wang, M. Zhang, W. Zhang, C. Yang, C. Li*, Consequence of heterogeneity of active sites for reactivity mechanism of n-butane isomerization over SO42−/ZrO2-Al2O3, catalyst, Appl. Catal. A 2017, 542, 311-316.
[5] P. Wang, W. Zhang, Q. Zhang, Z. Xu, C. Yang, C. Li*, Comparative study of n-butane isomerization over SO42-/Al2O3-ZrO2 and HZSM-5 zeolites at low reaction temperature, Appl. Catal. A 2018, 550, 98-104.
[6] P. Wang*, S. Wang, C. Yang, C. Li, X. Bao, Effect of aluminum addition and surface moisture content on the catalytic activity of sulfated zirconia in n-butane isomerization, Ind. Eng. Chem. Res. 2019, 58 (32), 14638-14645.
[7] P. Wang, W. Zhang, H. Zhu, P. Yuan, C. Yang, C. Li*, X. Bao*, Insights into the reaction pathway of n-butane conversion over HZSM-5 zeolite at low temperature, Appl. Catal. A 2019, 584, 117135.
[8] P. Wang, S. Wang, Y. Yue, T. Wang*, X. Bao*, Effects of acidity and topology of zeolites on the n-alkane conversion at low reaction temperatures, Micropor. Mesopor. Mat. 2020, 292, 109748.
[9] P. Wang, S. Wang, Y. Yue, H. Zhu, T. Wang*, X. Bao*, In situ diffuse reflectance infrared fourier transform spectroscopy investigations on the evolution of surface and catalysis properties of alumina-promoted sulfated zirconia during n-butane isomerization, Ind. Eng. Chem. Res. 2020, 59 (2), 704-712.
[10] P. Wang, Y. Yue, T. Wang, X. Bao*, Alkane isomerization over sulfated zirconia solid acid system, Int. J. Energ. Res. 2020, 44(5), 3270-3294.
[11] P. Wang#, Z. Xu#, T. Wang, Y. Yue, X. Bao, H. Zhu*, Unmodified bulk alumina as an efficient catalyst for propane dehydrogenation, Catal. Sci. Technol. 2020,10, 3537-3541.
[12] P. Wang, S. Wang, Y. Yue, H. Zhu*, T. Wang, X. Bao*, The controlled synthesis of Pt/Hβ catalysts with intimate metal-acid sites for n-butane isomerization, Micropor. Mesopor. Mat. 2020, 309, 110547.[1]