主讲课程
本科生课程:化工工艺学、化工设计、煤化工工艺学、过程分析与优化。
1.学术论文
(1)the influence of the size of aromatic monomers on the structure and catalytic activity of polymer solid acids[j]. new journal of chemistry, 2022, 46(2): 767-778.
(2)rapid in situ synthesis of mgal-ldh on η-al2o3 for efficient hydrolysis of urea in wastewater[j]. journal of catalysis. 2021, 395: 54-62
(3)preparation of a novel solid acid bearing sulfur-containing active groups and evaluation of its activity for cellulose hydrolysis[j]. fuel processing technology, 2021, 224: 107004.
(4)co-improvement of –cooh group and –so3h group densities in carbon-based solid acid by a simple strategy, molecular catalysis, 2021, 506: 111539.
(5)a simple strategy for the preparation of chlorine functionalized coal-based solid acid with rich carboxyl to improve the activity for hydrolysis of cellulose. molecular catalysis, 2020, 492: 111015.
(6)production of a gasoline blending component with high-octane and low sulfur from coal tar light oil over sulfided comop/η-al2o3[j]. journal of cleaner production, 2019, 228: 965-973.
(7)effect of the upstream gas on the evolved coal gas in the dry distillation zone of the fixed bed gasifier[j]. energy, 2019, 180: 421-428.
(8)double-adsorption functional carbon based solid acids derived from copyrolysis of pvc and pe for cellulose hydrolysis[j]. fuel, 2019, 237: 895-902.
(9)urea hydrolysis over α-mno2 catalyst: preparation, characterizations and influencing factors[j]. catalysis letters, 2019.
(10)the effect of difference in chemical composition between cellulose and lignin on carbon based solid acids applied for cellulose hydrolysis[j]. cellulose, 2018, 25(3): 1851-1863.
(11)in situ growth of highly active mgal layered double hydroxide on η-al2o3 for catalytic hydrolysis of urea in wastewater[j]. catalysis letters, 2018.
(12)influence of relative proportions of cellulose and lignin on carbon-based solid acid for cellulose hydrolysis[j]. molecular catalysis, 2017,442: 133-139.
(13)the evaluation of a process for clean syngas based on lump coal pressurized gasification[j]. international journal of hydrogen energy, 2017, 42(12): 7883-7894.
(14)hydrofining of coal tar light oil to produce high octane gasoline blending components over γ-al2o3 and η-al2o3 supported catalysts[j]. energy & fuels, 2015, 29(11): 7005-7013.
(15)influence of reaction conditions on heterogeneous hydrolysis of cellulose over phenolic residue-derived solid acid[j]. fuel, 2014, 134(9):573-578.
(16)preparation of a novel carbon-based solid acid from cocarbonized starch and polyvinyl chloride for cellulose hydrolysis[j]. applied catalysis a general, 2014, 473(473):70-74.
(17)catalytic hydrolysis of urea from wastewater using different aluminas by a fixed bed reactor[j]. environmental science and pollution research, 2014, 21(21): 12563-12568.
(18)effect of three processes on co2 and o2 simultaneously reforming of coke oven gas to syngas[j]. chemical engineering and processing: process intensification, 2014, 75: 75-80.
(19)heterogeneous hydrolysis of cellulose into glucose over phenolic residue-derived solid acid[j]. fuel, 2013, 113:644-649.
(20)the influence of adding modified pitch and phenol residue to coal blends on coke microcrystalline size[j].applied mechanics and materials. 2011,71-78: 2331-2335
(21)non-catalytic partial oxidation of simulating coke oven gas to syngas[j].the second china energy scientist forum, 2010, 1-3: 1093-1097
(22)周子键、王翠、潘华杰、马雪平、景帅旗、申曙光. 硫酸催化一步法合成磺酸功能化超高交联聚合物固体酸[j]. 功能材料, 2020, 51(9):6.
(23)申曙光,王涛,秦海峰,代光,李焕梅.不同碳源制备碳基固体酸及其在水解纤维素中的应用.功能材料,2012,43(12):1598-1601
(24)申曙光,张翠,氧气与二氧化碳非催化重整焦炉煤气,精细石油化工,2011,28(3): 57-61
(25)申曙光,韩勇,陈春晓.亚铁离子催化棉纤维常压两段酸水解研究,可再生能源,2010,28(2):33-37
(26)申曙光,李建军,郑虎等. 改质沥青及酚渣对配煤焦炭质量的影响.煤炭科学与技术,2010,38:120-124
(27)申曙光.王月波.鲍卫仁.吕永康.热等离子体转化煤的研究进展.煤化工,2007(06):37-41
(28)申曙光,庞先勇,鲍卫仁,吕永康,朱素渝.气化参数对空气等离子体煤气化过程的影响.煤炭学报, 2004.29(06)721-725.
2.第一发明人授权专利
(1)一种利用裂解甲醇原位还原醋酸制乙醇的工艺 ,cn201810773002.2 [p].
(2)一种甲醇用于醋酸甲酯制乙醇的工艺 ,cn201810773011.1 [p].
(3)一种硫碳基固体酸催化剂,cn202010512103.1[p].
(4)一种硫碳基固体酸催化剂的制备方法,cn201810559448.5[p].
(5)一种碎煤生产洁净合成气的工艺,cn201510019979.1[p].
(6)一种同时制备煤基固体酸和燃料油的工艺,cn201410053017.3[p].
(7)一种炼焦副产物制汽油高辛烷值调和组分的方法,cn201410292122.2[p].
(8)一种碳基固体酸催化剂及其制备方法, cn201310685390.6[p].
(9)一种固体催化剂催化水解低浓度尿素废水的方法,cn201210542106.5[p].
(10)一种焦炉煤气与二氧化碳制一氧化碳的方法,cn201210330110.5[p]..
(11) 炼焦酚渣制备碳基固体酸催化剂的方法,cn201110003271.9[p].
(12)一种焦炉气生产甲烷的工艺,cn200910074977.7[p].
(13)一种焦炉煤气制合成气的方法,cn200910075858.3[p].
(14)一种富甲烷气等离子体制氢气的方法,cn200910227848.7[p].
(15)等离子体气化焦炉荒煤气的方法,cn200410092420.3[p].
3.科研项目
(1)山西省基础研究计划 (20210302123179)碳固体酸的结构调控及其促进纤维素水解机制的研究,8万,2022/01-,主持,在研;
(2)中央引导地方科技发展资金项目(ydzx2020140001783),炼焦酚渣构建碳基固体酸及其催化合成己内酰胺的机制研究,50万,2020/01-,主持,在研;
(3)国家自然科学基金面上项目(21576181),煤基固体酸的结构及其催化纤维素水解的研究,77万,2016/01-2019/12,主持,结题;
(4)山西省专利推广实施资助专项(20161004),非均相催化降解尿素工厂废水中尿素,10万,2016/01-2017/12,主持,结题;
(5)山西煤基重点科技攻关项目(mh2014-02),碎煤加压气化技术开发及其工业示范,150万,2015/01-2018/12,参与,结题;
(6)国家863计划项目子课题(2015aa050503),煤制清洁燃气及其废水控制关键技术研究与示范,100万,2015/01–2018/12,参与,结题;
(7)山西省社会发展科技攻关计划(20140313005-2),焦化轻油和重苯加氢提质制高辛烷值汽油调和组分,10万,2014/01-2016/12,主持,结题;
(8)山西省科技发展计划(20120321003-02),co2/h2o/o2非催化/催化两段转化焦炉气制合成气,20万,2012/01-2014/12,主持,结题;
(9)太原市科技计划项目(070401715),热态转化焦炉粗煤气制合成气的技术开发;15万,2007/01-2008/12,主持,结题;
(10)山西省科技攻关项目(2006031120-03),等离子体裂解煤层气制取氢联产纳米碳材料;20万,2006/01-2008/12,主持,结题;
(11)国家自然科学基金项目(50576062),生物质与废轮胎共热解及催化对液体燃料的影响,25万,2006/01-2008/12,参与,结题;
(12)国家自然科学基金项目(20576086),煤/电弧等离子体射流技术制备碳富勒烯类材料及其过程中的若干科学问题的研究,25万,2006/01-2008/12,参与,结题;
(13)国家自然科学基金项目(50573053),包覆原生聚合物介孔分子筛改性高分子材料的研究,23万,2006/01-2008/12,参与,结题;
(14)973项目(2005cb221201),适用于双气头多联产系统的煤大规模气化的工程基础研究子课题,26万元,2005/01-2009/12,参与,结题;
(15)973项目(1999022106),煤热解、气化和高温净化过程的基础性研究子课题等离子体炬辅助下煤的热解、气化基础,100万,1999/10-2004/09,参与,结题。
此外,还承担了横向项目若干项,目前承担山西大地和南网科技两项横向项目,在研。
4.获奖情况
(1)获山西省“兴晋挑战杯”高校青年师生学术作品竞赛一等奖
十大信誉好的平台【中国】科技公司
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