2018
- Limin Huang, Qiang Jin*, Puja Tandon, Aimin Li, Aidang Shan, Jiajie Du, High-resolution insight into the competitive adsorption of heavy metals on natural sediment by site energy distribution. Chemosphere, 2018(197): 411-419. DOI: 10.1016/j.chemosphere.2018.01.056
- 李玲玲, 宋明, 靳强*, 铝灰回收利用的研究进展. 无机盐工业, 已接受
- 李玲玲,宋明,靳强*, 二次铝灰中氧化铝碱溶研究. 无机盐工业, 已接受
2017
- Puja Tandon, Qiang Jin*, Limin Huang, A promising approach to enhance microalgae productivity by exogenous supply of vitamins. Microbial Cell Factories, 2017(16): 219.DOI: 10.1186/s12934-017-0834-2.
- Jianyang Zhu, Qiang Jin*, Dongming Liu, Investigation on two integrated membrane systems for the reuse of electroplating wastewater. Water and Environmental Journal, ID: 14809067. DOI: 10.1111/wej.12324.
- Qiang Jin*, Limin Huang, Aidang Shan, Quantification of the limitation of Langmuir model used in adsorption research on sediments via site energy heterogeneity. Chemosphere, 185 (2017): 518-528. DOI: 18510.1016/j.chemosphere.2017.07.051.
- Puja Tandon; Qiang Jin*, Microalgae culture enhancement through key microbial approaches. Renewable and Sustainable Energy Reviews, 80(2017): 1089-1099. DOI: 10.1016/j.rser.2017.05.260
- Qiang Jin*; Xinyue Fang; Bo Wen; Aidang Shan, Spatio-temporal variations of PM2.5 emission in China from 2005 to 2014. Chemosphere, 183(2017): 429-436. DOI: 10.1016/j.chemosphere.2017.05.133
- Qiang Jin; Jian Lu; Jun Wu; Yongming Luo, Simultaneous removal of organic carbon and nitrogen pollutants in the Yangtze estuarine sediment: role of heterotrophic nitrifiers. Estuarine, Coastal and Shelf Science, 191(2017): 150-156. DOI: 10.1016/j.ecss.2017.04.019
- Jianyang Zhu; Qiang Jin*, Aidang Shan, Comparison of hybrid membrane systems in electroplating wastewater treatment. Desalination and Water Treatment, 2017(74): 105–114. DOI: 10.5004/dwt.2017.20597
- Yan Yang; Qiang Jin*; Jimin Fang; Puja Tandon; Aidang Shan, Spatial distribution, ecological risk assessment, and potential sources of heavy metal(loid)s in surface sediments from the Huai River within the Bengbu section, China. Environmental Science and Pollution Research, 2017, 24(12): 11360–11370. DOI: 10.1007/s11356-017-8732-z
- Qiang Jin*; Yan Yang; Aidang Shan, Comparison of biogas production from an advanced micro-bio-loop and conventional system. Journal of Cleaner Production, 2017 (148): 245-253. DOI: 10.1016/j.jclepro.2017.02.021
- Bo Wen, Qiang Jin*, Hong Huang, Puja Tandon, Yuanhang Zhu, Life cycle assessment of Quayside Crane: A case study in China. Journal of Cleaner Production, 2017 (148): 1-11. DOI: 10.1016/j.jclepro.2017.01.146
- 靳强*, 李琛, 刘莲, 苏凌寒, 申哲民, 单爱党, 基于毒性足迹的源头管控. 环境与可持续发展, 2017, 42(4): 19-21.
- 黄丽敏, 靳强*, 位点能量分布理论的研究进展及其在土壤和沉积物中的展望. 环境化学, 2017, 36(11): 2424-2433.
- 朱建阳, 靳强*, 纳滤技术处理含铜废水的研究. 水处理技术, 2017, 43(9): 81-83+88.
2016
- Qiang Jin*; Alistair G.L. Borthwick, An Advanced Micro-bio-loop to Produce Biogas. Journal of Cleaner Production, 2016 (139): 1094-1097. DOI: 10.1016/j.jclepro.2016.08.136
- Jian Lu; Patrick C. Wilson; Xianghua Wen; Qiang Jin and Jun Wu, Harmful Chemicals in the Environment 2016, Journal of Chemistry, 2016, Article ID 6327312. DOI: 10.1155/2016/6327312
- Qiang Jin*; Yan Yang; Xianbin Dong; Jimin Fang, Site Energy Distribution of Cu Adsorption on Sediments and Residues by Sequential Extraction Method. Environmental Pollution, 2016(208): 450-457. DOI: 10.1016/j.envpol.2015.10.014
- 靳强*,杨艳,关于毒性排污权交易初探,环境与可持续发展,2016,41( 6) : 7-8.
2015
- Qiang Jin*; Lei Chen, Aidang Shan; Alistair G.L. Borthwick, Comparison Between Solar Utilization of a Closed Microalgae-based Bio-loop and That of a Stand-alone Photovoltaic System. Bioresource Technology, 2015(184): 108-115. DOI: 10.1016/j.biortech.2014.10.131
- Jian Lu; Patrick C. Wilson; Xianghua Wen; Qiang Jin and Jun Wu, Harmful Chemicals in the Environment: Measurement, Fate, and Remediation. Journal of Chemistry, 2015: ID 723749. DOI: 10.1155/2015/723749
1. 工程技术的可持续度分析:“绿色发展方式”意味着既不能发展经济牺牲环境,同样也不能为了过度环境保护阻止经济发展,如何全面地测量工业过程的绿色度成为环境学界需要解决的重要课题。近年来,课题组将可持续度评价引入工业过程的分析和优化,开展物质流、能量流、环境流、经济流和信息流的耦合分析,构建了面向操作单元和工业过程的可持续度分析方法,突破了传统单一技术经济指标的片面性, 实现了跨技术方案甚至跨行业的优选,为国家过程工业的绿色生产方式和国际经济竞争力提供可靠的定量工具。已完成案例:
- 某大型央企的拳头产品占全球80%以上的市场份额,为该领域世界龙头企业,产品质量蜚声海外,但是长期困扰于隐性的绿色壁垒。课题组对生产过程进行可持续度尤其商用碳指标的分析和优化, 对其产品的“破壁”和 “设壁”、国际竞争力的强化和企业形象的提升有重要的指导价值。
- 针对某地级市及所辖区域,进行行业的可持续度分析,提出了区域工业系统的绿色化方案,为地方政府在重点行业整治、空间布局优化、河长制的推进和排污许可证的实施中提供了有力地支持。
- 此外,还针对微藻资源化、电镀漂洗废水资源化、铝灰资源化、污水处理等新旧工艺,开展了可持续度分析和优化,为现在工艺的绿色化改造和绿色新技术的开发提供了全面可靠的支持。
2. 电镀漂洗废水的资源化:电镀漂洗废水占电镀废水总量的80%。针对电镀漂洗废水,课题组充分利用反渗透和纳滤膜的技术特点,阐明了膜耦合的“火用”流变化规律,提出并成功开发了新型的反渗透-纳滤-蒸发的闭合循环工艺,在不添加任何新药剂的前提下,实现水、重金属和各类添加剂等全部物质的在线回用,不产生危废,而且还大大降低了运行能耗。
3. 二次/最终铝灰资源化:铝灰是铝行业生产过程的必然产物,传统炒灰后的二次铝灰每年产生量在约350万吨以上,基本随处废弃,严重污染水环境。2016年环境保护部出台的《国家危险废物名录》铝灰已列为毒性危险废物(编号:321-025-48)。铝灰实际上是高品质的铝土矿,目前国内尚未有二次铝灰高值化利用的工业生产线。课题组采集并分析了来自全国各地的27种二次铝灰特征,提出并成功开发了二段法(中温除杂产能、高温溶出分解)二次铝灰资源化工艺,直接从二次铝灰制取氧化铝,其质量达到冶金级氧化铝的国家标准(YS/T 803-2012)中的1级标准,且与传统氧化铝生产工艺相比,固定投资减少1/3,运行成本降低1/2。
