对内蒙古发展低碳经济的思考

内蒙古经济发展具有典型的高消耗、高污染、高排放特征,节能减排空间很大,同时内蒙古新能源储量丰富、森林碳汇能力较强。发展低碳经济应是内蒙古实现经济可持续发展的战略选择,具体可以通过推进产业机构优化升级,提高资源、能源利用效率;通过发展煤炭清洁利用技术和新能源等清洁和可再生能源,着力改善能源结构;通过增加森林草原碳汇、尽快启动实施碳交易来实现经济的可持续发展。     

水源保护区内环境保护对策研究——以铁岭市南城子水库保护区内莲花镇为例分析

本文以铁岭市南城子水库饮用水源保护区上游村镇莲花镇为研究对象,利用实际调研数据进行分析,侧重研究饮用水源保护区上游村镇环境保护对策,以期为饮用水源保护区污染控制提供参考。     

畜禽养殖业清洁生产初探

中国畜禽养殖业正由传统方式向规模化养殖不断推进,在经济的快速发展的同时产生了大量的环境问题。本文从畜禽养殖业环境污染现状和原因出发,从环境压力、政策导向、企业需求三个方面分析了畜禽养殖业实施清洁生产的必要性,提出了发展畜禽养殖业清洁生产应鼓励使用环保生态饲料,着重实施粪便资源化、无害化,加强法律法规体系和技术规范完善与监管。在此基础上,尝试建立新型农牧结合的互利机制,促进畜禽养殖业的清洁生产推进,进而实现地区农业可持续发展。     

多水源化工园区综合废水的水体特征研究

为充分了解天津市滨海新区化工园区综合废水的水体特征,通过科学选取新区内某化工园区综合废水中的水质监测指标,借助GCMS和毒性分析技术,得以全面系统地分析出具有类似产业布局的多废水来源的化工园区废水水质特征,为完善同类型废水可生化性指标评价体系提供了参考,且便于后续废水处理工艺的达标化设计。     

成都粘土去除垃圾渗滤液中氨氮的实验研究

文章以成都粘土作为氨氮吸附剂,通过单因素探讨了用土量、搅拌速度、搅拌时间、pH和静置时间5个因素对氨氮去除率的影响。研究表明,在用土量m=50 g/L,pH=8.0的条件下,以r=100 r/min搅拌40 min,并静置24 h后,粘土对垃圾渗滤液中氨氮的去除率可达到23.97%,粘土单位氨氮吸附率为7.14 mg/g。实验表明,粘土可有效去除垃圾渗滤液中的氨氮,更便于生化法在后续处理中的应用,将其与生化法、矿物吸附法等物理方法组合使用,能更好地处理垃圾渗滤液。     

Effective and selective separation of perrhenate from acidic wastewater by super-stable,superhydrophobic, and recyclable biosorbent

• A ZnO-biochar hybrid composite was prepared by solvothermal-pyrolysis synthesis. • The superhydrophobic composite is suitable for selective recovery of Re(VII). • The adsorption mechanism is elucidated by experiments and material characterization. The recovery of scattered metal ions such as perrhenate (Re(VII)) from industrial effluents has enormous economic benefits and promotes resource reuse. Nanoscale-metal/biochar hybrid biosorbents are attractive for recovery but are limited by their insufficient stability and low selectivity in harsh environments. Herein, a superstable biochar-based biosorbent composed of ZnO nanoparticles with remarkable superhydrophobic features is fabricated, and its adsorption/desorption capabilities toward Re(VII) in strongly acidic aqueous solutions are investigated. The ZnO nanoparticle/biochar hybrid composite (ZBC) exhibits strong acid resistance and high chemical stability, which are attributable to strong C-O-Zn interactions between the biochar and ZnO nanoparticles. Due to the advantages of its hydrolytic stability, superhydrophobicity, and abundance of Zn-O sites, the ZBC proves suitable for the effective and selective separation of Re(VII) from single, binary and multiple ion systems (pH= 1), with a maximum sorption capacity of 29.41 mg/g. More importantly, this material also shows good recyclability and reusability, with high adsorption efficiency after six adsorption-desorption cycles. The findings in this work demonstrate that a metal/biochar hybrid composite is a promising sorbent for Re(VII) separation.     

Spatial spillover effects of urbanization on carbon emissions in the Yangtze River Delta urban agglomeration,China

Environmental Science and Pollution Research - To achieve a win–win situation for both urbanization and carbon emissions reduction from a spatiotemporal perspective, we need to identify the...     

Multiscale analysis of factors affecting food security in China, 1980–2017

Environmental Science and Pollution Research - Food security is an important issue affecting people’s lives and social stability. Clarifying levels of food security and the factors affecting...     

Improvement of water resistance by Fe2O3/TiO2 photoelectrocatalysts for formaldehyde removal: experimental and theoretical investigation

Environmental Science and Pollution Research - TiO2-based photocatalysts are a potential technology for removing indoor formaldehyde (CHOH) owing to their strong photooxidation ability. However,...     

Sustainable and clean utilization of coal gangue: activation and preparation of silicon fertilizer

Journal of Material Cycles and Waste Management - Coal gangue, a by-product produced during the coal processing, has a serious impact on the environment. Using coal gangue as a fertilizer has been...