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师资队伍
 

王权

来源:   作者:   发布日期:2019-10-30     浏览次数:

     

a0428563c61d4dd5a50cf4ffb405774c.png一、个人简介

王权,男,汉族,中国共产党员,浙江天台人,于2018年6月起在手机看片资源环境学院工作。

二、教育和工作经历

2018.06月至今 手机看片资源环境学院, 副教授

2018. 03-2018.08 香港浸会大学,生物系,访问学者

2013.09-2018.07 手机看片,环境工程,博士(硕博连读)

2009.09-2013.07 手机看片,环境科学,学士

三、研究领域

主要从事畜禽粪便、农作物秸秆和生活污泥等有机废弃物处理与资源化利用。

四、科研成果

近年来,发表和参与发表SCI、EI和核心论文51篇,撰写英文书籍4章。主要代表论文如下:

[1] Wang, Q., Li, R. H., Cai, H. Z., Awasthi, M. K., Zhang, Z. Q*., Wang, J. J., Ali, A., Amanullah, M., 2016. Improving pig manure composting efficiency employing Ca-bentonite. Ecological Engineering. 87, 157-161.

[2] Wang, Q., Wang, Z., Awasthi, M. K., Jiang, Y. H., Li, R. H., Ren, X. N., Zhao, J. C., Shen, F., Wang, M. J., Zhang, Z. Q*., 2016. Evaluation of medical stone amendment for the reduction of nitrogen loss and bioavailability of heavy metals during pig manure composting. Bioresource Technology 220, 297-304.

[3] Wang, Q., Awasthi, M. K., Ren, X. N., Zhao, J. C., Li, R. H., Shen, F., Zhang, Z. Q*., 2017. Effect of calcium bentonite on Zn and Cu mobility and their accumulation in vegetable growth in soil amended with compost during consecutive planting. Environmental Science and Pollution Research. 24, 15645-15654.

[4] Wang, Q., Awasthi, M. K., Zhao, J. C., Ren, X. N., Li, R. H., Wang, Z., Wang, M. J., Zhang, Z. Q*., 2017. Improvement of pig manure compost lignocellulose degradation, organic matter humification and compost quality with medical stone. Bioresource Technology. 243, 771-777.

[5] Wang, Q., Awasthi, M. K., Ren, X. N., Zhao, J. C., Li, R. H., Wang, Z., Chen, H. Y., Wang, M. J., Zhang, Z. Q*., 2017. Comparison of biochar, zeolite and their mixture amendment for aiding organic matter transformation and nitrogen conservation during pig manure composting. Bioresource Technology. 245, 300-308.

[6] Wang, Q., Awasthi, M. K., Zhao, J. C., Ren, X. N., Li, R. H., Wang, Z., Wang, M. J., Chen, H. Y., Zhang, Z. Q*., 2017. Combining biochar, zeolite and wood vinegar for composting of pig manure: the effect on greenhouse gas emission and nitrogen conservation. Waste Management. 74, 221-230.

[7] Wang, Q., Awasthi, M. K., Zhao, J. C., Ren, X. N., Wang, M. J., Li, R. H., Wang, Z., Zhang, Z. Q*., 2017. Utilizing medical stone to improve the composition and quality of dissolved organic matter during pig manure composting. Journal of Cleaner Production . 197, 472-478.

[8] Awasthi, M.K., Wang, Q., Ren, X., Junchao Zhao, Huang, H., Awasthi, S.K., Lahori, A. H., Li, R., Zhang, Z*., 2016. Role of biochar amendment in mitigation of nitrogen loss and greenhouse gas emission during sewage sludge composting. Bioresource Technology. 219, 270–280

[9]Awasthi, M.K., Wang, Q., Huang, H., Li, R., Shen, F., Lahori, A. H., Wang, P., Guo, D., Guo, Z., Jinag, S., Zhang, Z*., 2016.  Effect of biochar amendment on greenhouse gas emission and bio-availability of heavy metals during sewage sludge co-composting. Journal of Cleaner Production. 135, 829-835.

[10]Awasthi, M.K., Wang, Q., Chen, H., Wang, M., Ren, X., Zhao, J., Li, J., Guo, D., Li, D., Awasthi, S.K., Sun, X., Zhang, Z*., 2017. Evaluation of biochar amended biosolids co-composting to improve the nutrient transformation and its correlation as a function for the production of nutrient-rich compost. Bioresource Technology. 237, 156-166.

[11] Awasthi, M.K., Wang, Q., Awasthi, S.K., Wang, M., Chen, H., Ren, X., Zhao, J., Li, J., Zhang, Z*., 2017. Influence of medical stone amendment on gaseous emissions, microbial biomass and abundance of ammonia oxidizing bacteria genes during biosolids composting. Bioresource Technology.247,  

[12] Awasthi, M.K., Wang, Q., Chen, H., Awasthi, S.K., Wang, M., Ren, X., Zhao, J., Zhang, Z*., 2018. Beneficial effect of mixture of additives amendment on enzymatic activities, organic matter degradation and humification during biosolids co-composting. Bioresource Technology. 247, 138-146.

[13] Awasthi, M.K., Wang, Q., Awasthi, K.S., Li, R., Zhao, J., Ren, X., Wang, M., Chen, H., Zhang, Z.Q., 2018. Feasibility of medical stone amendment for sewage sludge co-composting and production of nutrient-rich compost. J.Enviro. Manag. 216,49-61.

[14] Awasthi, M.K., Wang, Q., Chen, H., Awasthi, S.K., Wang, M., Ren, X., Zhao, J., Zhang, Z*. 2018. In-Vessel Co-Composting of Food Waste Employing Enriched Bacterial Consortium. Food Technology and Biotechnology. In press. .

[15]Li, R. H., Wang, Q., Zhang, Z. Q*., Zhang, G. J., Li, Z. H., Wang, L., Zheng, J. Z.,  2015. Nutrient transformation during aerobic composting of pig manure with biochar prepared at different temperatures. Environmental Technology. 36, 815-826.

[16]Wang, Z., Wang, Q., Li, R. H., Zhang, Z. Q*., 2015. Nitrate-Contaminated Water Remediation Supported by Solid Organic Carbon and ZVI-Combined System. Water Air and Soil Pollution. 226, 3.

[17]Awasthi, M.K., Wang, Q., Wang, M., Chen, H., Awasthi, S.K., Rena, X., Li, R., Zhang, Z*., 2017. In-vessel co-composting of biowaste: Focusing on mitigation of greenhouse gases emissions and production of nutrient rich compost. Renewable Energy. 129,814-823.

[18]Dhyani, V., Awasthi, M.K., Wang, Q., Kumar, J., Ren, X., Zhao, J., Chen, H., Wang, M., Bhaskar, T*., Zhang, Z.Q., 2017. Effect of composting on the thermal decomposition behavior and kinetic parameters of pig manure-derived solid waste. Bioresour. Technol. 252, 59-65.

[19]Ma, F., Du, H.T., Wang, Q., Li, R. H., Zhang, Z. Q., 2015. Preparation of Pyridinium-Functionalized Magnetic Adsorbent and Its Application for Nitrate Removal from Aqueous Solution. Water Air and Soil Pollution. 226, 7.

[20]Li, R.H., Wang, J.J., Gaston, L.A., Zhou, B., Li, M.L., Xiao, R., Wang, Q., Zhang, Z.Q., Huang, H., Liang, W., Huang, H., Zhang, X., 2018. An overview of carbothermal synthesis of metalebiochar composites for the removal of oxyanion contaminants from aqueous solution. Carbon. 129, 674-687.

[21]Li, R. H., Zhang, G. J., Zhang, Z. Q*., Wang, Q., Sun, X. N., 2014. Improving pig manure and rice husk compost technology and quality by wood charcoal addition. Transactions of the Chinese Society of Agricultural Engineering (In Chinese). 30, 230-238. (EI).

[22]Han-zhen, Cai., Xi-cui, Nin., Wang, Q., Zhang, Z., Ren, Z., Li, R*., Wang, M., Awasthi, M.K., 2016. Effect of Alkali Solids Amendments on Sewage sludge Aerobic composting and the potential of related products on infertile soil amelioration. Environmental Science (in Chinese). 37(12), 394-402. (EI)

[23] Awasthi, M.K., Wang, M., Pandey, A., Chen, H. Y., Wang, Q., Awasthi, S.K., Rena, X., Lahori, A. H., Li, R., Zhang, Z*., Chorey, K., 2017. Heterogeneity of zeolite combined with biochar properties as a function of sewage sludge composting and production of nutrient-rich compost. Waste Management, 68, 760-773.

[24] Wang, M., Awasthi, M.K., Wang, Q., Chen, H., Rena, X., Zhao, J., Li, R., Zhang, Z*., 2017. Comparison of additives amendment for mitigation of greenhouse gases and ammonia emission during sewage sludge co-composting based on correlation analysis. Biorsource Technology. 243, 520-527.

[25]Awasthi, M.K., Zhang, Z*., Wang, Q., Shen, F., Li, R., Li, D., Ren, X., Wang, M., Chen, H., Zhao, J., 2017. New insight with the effects of biochar amendment on bacterial diversity as indicators of biomarkers support the thermophilic phase during sewage sludge composting. Bioresource Technology. 238, 589-601.

[26]Awasthi, M.K., Li, J., Sunil, K., Awasthi, S.K., Wang, Q., Chen, H., Wang, M., Ren, X., Zhang, Z*., 2017. Effects of biochar amendment on bacterial and fungal diversity for co-composting of gelatin industry sludge mixed with organic fraction of municipal solid waste. Bioresource Technology. 246, 214-223.

[27]Awasthi, M.K., Wang, M., Chen, H., Wang, Q., Zhao, J., Ren, X., Li, D., Awasthi, S.K., Shen,F., Li, R., Zhang, Z*., 2017. Heterogeneity of biochar amendment to improve the carbon and nitrogen sequestration through reduce the greenhouse gases emissions during sewage sludge composting. Bioresource Technology. 224, 428-438.

[28]Awasthi, M.K., Wong, J. W. C., Sunil, K., Awasthi, S.K., Wang, Q., Wang, M., Ren, X., Zhao, J., Chen, H., Zhang, Z*., 2017. Biodegradation of food waste using microbial cultures producing thermostable α-amylase and cellulase under different pH and temperature. Bioresource Technology. 248, 160-170.

[29] Xiao, R., Awasthi, M. K., Li, R., Park, J. H., Pensky, S. M., Wang, Q., Wang, J. J., Zhang, Z*., 2017. Recent developments in biochar utilization as an additive in organic solid waste composting: A review. Bioresource Technology. 246, 203-213.

[30] Mao, H., Zhang, T., Li, R*., Zhai, B., Wang, Z., Wang, Q., Zhang, Z., 2017. Apple pomace improves the quality of pig manure aerobic compost by reducing emissions of NH3 and N2O. Scientific Reports. 7, 870.

五、科研项目

1. 中国博士后基金面上项目“污泥和生物炭混合堆肥过程中微塑料降解特性的研究”(2019.6-2021.6)

2. 杨凌示范区产学研用协同创新重大项目“规模养殖场畜禽粪便好氧堆肥过程污染控制研究,(项目编号:2016CXY-12)(60万元,2016.1-2018.12),参与;

3. 科技部“十三五”重点专项资金项目“农业废弃物好氧发酵技术与智能控制设备研发”课题“北方农业废弃物好氧发酵技术示范与工程化应用” (2016YFD0800606);(62万元,2016.1-2020.12), 参与。

六、联系方式

通讯地址:陕西杨凌邰城路3号 手机看片资源环境学院

邮政编码:712100

E-mail:quanwang_1990@163.com; quanwang_1990@brand-buyma.com


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联系方式

地址 : 陕西省杨凌农业高新技术产业示范区邰城路3号   

邮编 : 712100

综合办公室电话 : 029-87080055

主管领导 : 闫德忠   网管员 : 李平 杨萍

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