微波消解/ICP-AES法测定土壤中的环境有效态金属元素

传统的土壤样品消解技术手续繁琐、费时,成为整个分析过程的薄弱环节;微波消解很好地解决了这一问题。采用微波消解技术处理土壤样品,以ICP-AES法测定Ag、As、Ba.Be、Cu、Mn、Mo、Ni、Pb、Sr、V、Zn,Al、Co 14种环境有效态金属元素。选择了HNO_3-HCL-H_20_2消解体系,确定了最佳微波消解功率和时间。方法精密度以相对标准偏差表示为1.20％～6.13％,准确度以回收率表示为79.6％～97.4％,与传统的酸解法处理样品相比较,相对误差在±120％以下,结果基本一致。微波消解处理土壤样品比传统的酸解法节省了约10倍的时间,具有快速、高效、清洁、用量少、背景值小等优点。     

固定化微生物法处理氨氮废水

通过固定消化菌处理氨氮废水和研究，着重从凝胶颗粒的机械强度、缩水性能、化学稳定性微生物活性等４个方面来选择包埋剂。结果表明海藻酸钠、卡拉胶、聚惭烯醇和丙烯酰胺是较理想的微生物载体。在选用丙烯酰胺凝胶颗粒固定硝化菌的氨氮废水处理工艺中，用正交试验与实验方法列出了影响氨氮去除率诸因素主次顺序，依次为ＰＨ值，颗普重量、丙烯酰胺量、菌体量。交得出丙烯酰胺含量１２．５％，包埋菌体含量５％、颗粒重量４ｇＰＨ值     

微波消解－ICP－AES法测底泥中的铜、镍等金属元素

采用微波消解－ICP－AES法测定底泥中的铜、镍等金属元素。通过实验和加标回收率的测定,回收率在88～102％之间。     

废旧灯管回收处理的法制和设施建设

阐述了含汞的废光源对人类健康和环境的影响,从管理手段和技术手段两方面介绍了欧盟、美、日、台湾等地区和国家相关的法规和对策,以及国内废旧荧光灯回收利用和处理处置现状.并就深圳市废旧灯管回收处理的法制和设施建设现状,提出了相关建议.     

国内医疗废物处置与管理探讨

国内医疗废物处置与管理尚在探索阶段。本文详细介绍了国内医疗废物处置与管理现状,并剖析了其存在问题,据此提出了对医疗废物强制实施全过程管理、集中控制和区域化、无害化处理处置的对策建议,以及建设区域性医疗废物集中处理中心的构想。     

室内火灾烟雾对微波衰减的影响研究

针对建筑室内火灾烟雾环境对微波信号的干扰问题,利用火灾标准实验间和微波实验装置,研究棉绳阴燃、聚氨酯明火等四种典型火灾烟雾对频率分别为600 MHz和2.7GHz微波衰减特性的影响规律。在有和无火灾烟雾环境下,对比分析入射波频率、烟雾浓度、烟雾类型对微波衰减的影响。实验结果表明,四种火灾烟雾对微波传播有明显衰减,且衰减量均随烟雾浓度的增加而增加,而衰减速率逐渐减小。频率以及不同特性类型的烟雾对微波衰减特性的规律不同。最后,计算并修正了室内火灾烟雾环境下微波衰减因子模型的衰减因子,提高了该模型在火灾烟雾环境下的适用性和准确性。     

头孢噻肟钠生产废渣的综合利用

从头孢噻肟钠生产废渣中回收２－硫醇基苯并噻唑合成二硫化二苯并噻唑,ＤＭ的收率达２３．８％,产品质量达到ＨＧＢ２－１５８－６１标准,小试表明,方法可行,操作稳定,简便,既减轻了废渣生成的污染,又回收和用途广泛的化工原料,有一定的环境效益和经济效益。     

Repercussions of COVID-19 pandemic on solid waste generation and management strategies

• Implication of COVID-19 on medical waste and MSW generation is studied. • Challenges and effective strategy of solid waste generation is reviewed. • 2.9 million tons of COVID-19 related medical waste has been generated until Sep. 22. • The pandemic has postponed policies related to the reduction of plastic use. • Blockade resulted in a significant drop in waste generation in some regions. It has been over ten months since the beginning of the 2019 coronavirus disease (COVID-2019), and its impact on solid waste management, especially medical waste, is becoming clearer. This study systematically reviews the potential influences of the COVID-19 pandemic on medical waste, personal protection equipment waste and municipal solid waste (MSW), and discusses the corresponding measures and policies of solid waste management in typical countries. The results show that the generation of medical waste from the pandemic increased significantly, with 18%‒425% growth. It is estimated that the daily output of COVID-19 medical waste increased from 200 t/d on Feb. 22 to over 29000 t/d at the end of September 2020 throughout the world. The use of personal protective equipment will continue to grow in the long-term, while the blockade and isolation measures greatly reduced the volume of commercial waste, especially for tourist cities, and part of this waste was transferred to household waste. Residents’ attitudes and behavior toward food waste have changed due to the COVID-19 pandemic. In response to the pandemic, international organizations and several countries have issued new policies and guidelines and adjusted their management strategies for medical waste and MSW treatment. The pandemic has brought specific challenges to the disposal capacity of medical waste worldwide. It has also brought about the stagnation of policies related to the reduction of plastic products and waste recycling. This study will provide some useful information for managers and governmental officials on effective solid waste management during and after the COVID-19 pandemic.     

Reutilize tire in microbial fuel cell for enhancing the nitrogen removal of the anammox process coupled with iron-carbon micro-electrolysis

• MFC promoted the nitrogen removal of anammox with Fe-C micro-electrolysis. • Reutilize pyrolysis waste tire as micro-electrolysis and electrode materials. • Total nitrogen removal efficiency of modified MFC increased to 85.00%. • Candidatus kuenenia and SM1A02 were major genera responsible for nitrogen removal. In this study, microbial fuel cells (MFCs) were explored to promote the nitrogen removal performance of combined anaerobic ammonium oxidation (anammox) and Fe-C micro-electrolysis (CAE) systems. The average total nitrogen (TN) removal efficiency of the modified MFC system was 85.00%, while that of the anammox system was 62.16%. Additionally, the effective operation time of this system increased from six (CAE system alone) to over 50 days, significantly promoting TN removal. The enhanced performance could be attributed to the electron transferred from the anode to the cathode, which aided in reducing nitrate/nitrite in denitrification. The H⁺ released through the proton exchange membrane caused a decrease in the pH, facilitating Fe corrosion. The pyrolyzed waste tire used as the cathode could immobilize microorganisms, enhance electron transport, and produce a natural Fe-C micro-electrolysis system. According to the microbial community analysis, Candidatus kuenenia was the major genus involved in the anammox process. Furthermore, the SM1A02 genus exhibited the highest abundance and was enriched the fastest, and could be a novel potential strain that aids the anammox process.     

医疗垃圾的现状及处理对策

在评述各类医疗垃圾危害性及现有处理方法基础上提出，应重视医疗垃圾和生活垃圾的区分，医疗垃圾的最佳处置方法是焚烧，医疗废水的处理方法应建立在科学论证的基础上，并建议尽快出台相应的法规及政策。