1、Shi DZ, Wu WX*, Lu SY, Chen T, Huang HL, Chen YX, Yan JH. Effect of MSW source-classified collection on the emission of PCDDs/Fs and heavy metals from incineration in China.Journal of Hazardous Materials.2008, 153(1-2): 685-694. 2、Tang XJ, Shen CF,Shi DZ*, Cheema SA,et al. Heavy metal and persistent organic compound contamination in soil from Wenling: an emerging e-waste recycling city in Taizhou area, China.Journal of Hazardous Materials.2010, 173(1-3): 653-660.ESI高被引论文 3、Shen KL, Shen CF, Yu J, Yu CN,Shi DZ*, Chen YX. PCB congeners induced mitochondrial dysfunction in Vero cells.Journal of Hazardous Materials.2011, 185: 24-28. 4、Tang H, Xu XY, Wang B, Lv CP,Shi DZ*.Removal of ammonium from swine wastewater using synthesized zeolite from fly ash.Sustainability. 2020, 12(8): 3423. 5、Huang J, Tong HH,Shi DZ*,Xu S, Wen XY, Fu K, Xie H, Cai HY, Liu JY, Tang SY, Wang ZW.Efficient activation of periodate using MnFe2O4/BC composite for removal of organic contaminants: Performance and mechanism.Separation and Purification Technology. 2024, 127404. 6、Tong HH,Shi DZ*, Huang J,Xu S, Fu K, Wen XY, Xie H, Liu JY, Cai HY, Xu XY.Resource utilization of MSWI fly ash supporting TiO2/BiOCl nanocomposite for enhanced photocatalytic degradation of sodium isopropyl xanthate: Mechanism and performance evaluation.Journal of Environmental Management. 2024, 102859. 7、Tong HH,Shi DZ*, Cai HY, Liu JY, Lv MY, Gu L, Luo L, Wang B. Novel hydroxyapatite (HAP)-assisted hydrothermal solidification of heavy metals in fly ash from MSW incineration: Effect of HAP liquid-precursor and HAP seed crystal derived from eggshell waste.Fuel Processing Technology. 2022, 236:107400. 8、Shi DZ*, Liu JY. Tong HH, Fu K, Salam M, Huang J, Xu S, Wen XY, Xie H, Wang P, Cai HY, Luo D.Enhancement of catalytic detoxification of polycyclic aromatic hydrocarbons in fly ash from municipal solid waste incineration via magnetic hydroxyapatite-assisted hydrothermal treatment.Science of the Total Environment. 2024, 918:170467. 9、Shi DZ*, Hu CY, Zhang JL, Li PF, Zhang C, Wang XM, Ma H. Silicon-aluminum additives assisted hydrothermal process for stabilization of heavy metals in fly ash from MSW incineration.Fuel Processing Technology. 2017,165:44-53. 10、Shi DZ*,Ma JY,Wang HL,Wang P,Hu CY,Zhang JL,Gu L. Detoxification of PCBs in fly ash from MSW incineration by hydrothermal treatment with composite silicon-aluminum additives and seed induction.Fuel Processing Technology. 2019,195:106157. 11、Shi DZ*, Lv MY, Tong HH, Liu JY, Cai HY, et al. Effect of magnetite on the catalytic oxidation of polycyclic aromatic hydrocarbons in fly ash from MSW incineration: A comparative study of one-step and two-step hydrothermal processes.Journal of Environmental Management. 2022, 303: 114238. 12、Shi DZ*, Zhang C, Zhang JL, Li PF, Wei YM.Seed-assisted hydrothermal treatment with composite silicon-aluminum additive for solidification of heavy metals in municipal solid waste incineration fly ash.Energy & Fuels.2016, 30 (12): 10661-10670. 13、Shi DZ*, Tong HH, Lv MY, Zhang HB, Wang HL, et al. Effect of Ca-Si-Al element proportion on formation of aluminosilicate minerals and detoxification of PAHs in fly ash from MSW incineration during hydrothermal process.Energy & Fuels. 2021, 35(11):9474-9488. 14、Shi DZ*, Tong HH, Lv MY, Luo D, Wang P, Xu XX, Han ZY. Optimization of hydrothermal synthesis of hydroxyapatite from chicken eggshell waste for effective adsorption of aqueous Pb(II).Environmental Science & Pollution Research. 2021, 28(41): 58189-58205. 15、Shi DZ*, Li PF, Zhang C, Tang XJ. Levels and patterns of polychlorinated biphenyls in residues from incineration of established source-classified MSW in China.Toxicological & Environmental Chemistry.2015, 97(10): 1337-1349. 16、Shi DZ, Tang XJ, Wu WX*, Shen CF, McBride BM, Chen YX. Effect of MSW source-classified collection on polycyclic aromatic hydrocarbons in residues from full-scale incineration in China.Water, Air & Soil Pollution.2009, 198: 347-358. 17、Shi DZ*, Wang P, Xu XY, Gu L, Li L, Ma H, Hu CY. Effect of source-classified collection of municipal solid waste on heavy metals and pozzolanic properties of incineration residues.International Journal of Environmental Research. 2018.12(5):661-670. 18、Shi DZ*, Zhang JL, Zhang C, Hu CY, Li PF. Seed-induced hydrothermal synthesis of tobermorite from municipal solid waste incinerator fly ash.Journal of Residuals Science & Technology.2017,14(1):11-19. 19、Shi DZ*, Zhang JL, Hu CY, Zhang C, Li PF. Research and application progress of the supercritical water oxidation technology on waste sludge treatment.Journal of Chemical Industry & Engineering.2017, 68(1): 37-49. 20、Shi DZ*, Wang P, Hu CY, Li PF, Zhang C, Wei YM, Gu L. Synergistic effect of silicon-aluminum addition and seed-induced on stabilization of heavy metals in MSW incineration fly ash during hydrothermal process.Journal of Chemical Industry & Engineering.2018,69(8): 3651-3661. 21、TongHH,Shi DZ*,Liu JY,Cai HY,Luo D,Chen F. Research progress on dark fermentative bio-hydrogen productionfrom lignocellulose assisted by metal nanoparticles.Journal of Chemical Industry & Engineering,2022, 73(4):1417-1435. 22、石德智*,张金露,胡春艳,张超,李鹏飞.超临界水氧化技术处理污泥的研究与应用进展.化工学报. 2017, 68(1): 37-49.(权威期刊,EI) 23、石德智*,王攀,胡春艳,李鹏飞,张超,等.硅铝调控与晶种诱导对水热稳定飞灰中重金属的协同影响.化工学报. 2018,69(8): 3651-3661.(权威期刊,EI) 24、童海航,石德智*,刘嘉宇,蔡桦伊,等.金属纳米颗粒辅助木质纤维素暗发酵生物制氢的研究进展.化工学报. 2022(权威期刊,EI) 25、石德智*,李鹏飞,张超,等.水热法外加硅铝添加剂稳定垃圾焚烧飞灰中重金属的研究.环境工程学报. 2017, 11(1):582-588. 26、石德智*,张金露,张超,李鹏飞.粉煤灰水热法合成沸石的研究进展.安全与环境学报. 2016, 16(3): 273-279. 27、石德智*,马靖元,张涵博,王海林,等.厕所恶臭物质组分及检测分析技术的研究进展.环境卫生工程. 2021, 29(3): 44-51. 28、石德智*,马彩灵,张涵博,刘嘉宇,蔡桦伊,等.污泥超临界水气化影响因素的研究进展.工业水处理2023, 43(1): 40-49. 29、石德智*,蔡桦伊,刘嘉宇,童海航,罗丹. CuFe2O4改性荔枝壳生物炭对水中盐酸四环素的吸附研究.水处理技术. 2024. 30、魏云梅,周英,石德智*.垃圾焚烧炉渣铁磁性物质提取及特性表征.环境工程学报. 2015, 9(10): 5037-5044. 31、周英,石德智*,向先熙,李鹏飞.基于能量分析的生活垃圾分类收集方式探讨.环境科学与技术. 2014, 37(6): 300-303. 32、黄向东,韩志英,石德智*,黄啸,等.畜禽粪便堆肥过程中氮素的损失与控制.应用生态学报. 2010, 21(1): 247-254. 33、王成贤,石德智*,沈超峰,等.畜禽粪便污染负荷及风险评估—以杭州市为例.环境科学学报. 2011, 31(11): 2562-2569. 34、聂明建,张涵博,石德智*,童海航,等.基于CiteSpace的疏浚底泥全球研究态势可视化分析.环境保护科学. 2022, 48(3):81-88. 35、赖生平,张涵博,石德智*,童海航,等.重庆长生河河道底泥污染特征分析及生态风险评价.能源与环保. 2022, 44(4):39-44. 教学改革论文: 36、石德智*,刘国涛,等.准好氧填埋在固废综合实验中的体系设计.实验科学与技术, 2017, 15(5): 69-72. 37、石德智*,刘元元,刘国涛,等.应用导向下的案例式教学在清洁生产审核课程中的实践.课程教育研究. 2016, 15: 9-10. 38、石德智*,刘元元,等.《清洁生产与清洁生产审核》课程建设与教学改革探索.公司产品论坛. 2017,4:112-115. 39、石德智*,李莉,袁荣焕.固废综合实验中探究性实验的教学设计—以eggshell-derived HAP制备及其吸附性能研究为例.高教学刊. 2021, 7(13): 75-79 40、石德智*,林庆,袁荣焕,等.市政污泥好氧堆肥在固废综合实验中的教学设计与实践.科教导刊. 2022, 174: 92-95 41、石德智*,马华,李伟民.环境工程专业生产实习课程思政教学的探索与实践.公司产品论坛. 2024.2 发明专利: 1、一种城市生活垃圾的综合处理工艺.发明专利. ZL200610052079.8 2、一种适合于村镇的垃圾综合处理方法.发明专利. ZL200710068139.X 3、一种有机固体废物高温水解处理装置.发明专利. ZL200710069848.X 4、厌氧/缺氧-好氧序批式反应器内培养颗粒污泥的方法.发明专利. ZL200810163174.4 5、危险废液物化综合处理系统.发明专利. ZL201110217842.9 6、一种添加晶种诱导水热稳定垃圾焚烧飞灰中重金属的方法.发明专利. ZL201610264481.6 7、垃圾焚烧飞灰同步稳定重金属和降解多环芳烃的方法.发明专利. ZL201810495561.1 8、催化亚临界水氧化降解垃圾焚烧飞灰中多环芳烃的方法.发明专利. ZL201910315109.7 9、一种垃圾热处理灰渣中含铁物质的富集方法.发明专利. ZL201611239098.1 10、一种低温热处理技术修复氰化物污染土壤的方法.发明专利. ZL201811196444.1 11、水热无害化处理垃圾焚烧飞灰的方法.发明专利. ZL202010553992.6 12、一种用于吸附硫化氢的Cu-HAP-生物炭复合材料及其制备方法.发明专利. ZL202110064443.7 13、一种河湖疏浚底泥资源化处理的方法.发明专利. ZL202111522328.6 14、垃圾焚烧灰渣水热法重金属稳定方法.发明专利. CN107265470A 15、一种减少氮素损失的猪粪堆肥制备方法.发明专利. CN101423427A 16、一种快速升温脱水及减少堆肥时间的猪粪堆肥制备方法.发明专利. CN101560114A 17、一种碱溶液相转移技术修复氰化物污染土壤的方法.发明专利. CN107309262A 18、一种处理废水中氨氮的方法及固定化生物反应器.发明专利. CN106995238A 19、一种碱性废渣与城市污泥交互作用同步稳定的静态处理方法.发明专利. CN 109574447A 20、一种提高剩余污泥厌氧消化中甲烷产气率的方法.发明专利. CN 109467299A 21、一种静滞水面水动力抑制藻类的方法和实施该方法的装置.发明专利.CN108502974A 22、一种有机垃圾快速堆肥腐熟的方法.发明专利. 202210038794.5. |