2009年天津口岸进口废塑料环保不合格情况分析

就2009年天津口岸进口废塑料环保不合格情况进行分析,归纳了其不合格原因、来源国家、境外供货企业及国内收货人的分布特点,结合天津东港检验检疫局对废物原料的监管和措施,对降低进口废物原料环保项目不合格率提出建议。     

进口废物原料检验检疫工作把关尺度一致性探讨

结合进口废物原料检验检疫把关的难。最,探讨了模糊综合评价法在把关中应用的可能性、合议制度在把关中应用的可行性,以及强化检验检疫人员的培训工作和提高废物原料检验检疫工作的科技水平的重要性．     

进口废物原料国内收货人注册登记探讨

进口固体废物原料国内收货人注册登记是确保进口废物原料安全的重要工作。就进口固体废物原料国内收货人书面评审、现场评审以及后续监管中存在的问题进行了剖析和探讨,从严格企业准入门槛、开展废物原料流向管理、加强企业分类管理和后续监管工作等方面提出了相应的建议。     

固体废物进口政策调控分析及展望

从2017年出台的进口固体废物政策调控入手,介绍了我国废物原料进口历史与现况,分析了政策调整出台的背景,展望了本次改革后进口废物原料行业的发展前景,并对行业转型升级提出了合理化建议。     

进口废旧塑料的现场鉴别

废塑料是废物原料的重要组成部分,近年来得到各界广泛的关注和重视。我国废塑料的进口量呈稳步增长的态势,出入境检验检疫部门作为进口废塑料的施检机构,必须了解废旧塑料知识,掌握废旧塑料鉴别的方法技巧,这是响应国家质检总局"科技兴检"战略、不断加强技术执法的必然要求。     

新版《国家危险废物名录》已施行 豁免管理环节需注意

<正>由环境保护部、国家发改委、公安部联合发布的2016年版《国家危险废物名录》(以下简称《名录》)2016年8月1日起开始施行。这是我国迄今为止发布的第三版危险废物名录。修改后的名录更加符合我国行业现状需要,方便企业和检验检疫部门对进口废物原料中夹杂危险废物的鉴别,加强对危险废物的管理控制。     

我国脱硫灰渣作为水泥原料及混合材的综合利用现状

阐述了固废物脱硫灰的成分与特点以及目前我国对脱硫灰渣作为水泥原料和混合材的利用现状,并分析了影响脱硫灰渣利用的主要问题和资源化利用提出的建议,对脱硫灰渣作为水泥原料及混合材的进一步发展和推广提供一些有益的参考。     

有机固体废物生物法制氢的研究进展

综述了利用有机固体废物生物法制氢的原理和研究现状。城市有机固体废物、农业有机废物、工业有机废物是生物法制氢的主要原料。暗发酵制氢是利用有机废物厌氧消化的产酸阶段而产氢，pH、温度、水力停留时间、氢气分压、原料性质、微量元素含量、产甲烷微生物抑制剂等均影响氢气产率。光发酵制氢是利用光合厌氧细菌将挥发性有机酸转化为氢气和二氧化碳。暗发酵和光发酵制氢时，生物固定化有利于高速连续产氢。在有机废物处理和生物法制氢方面，暗发酵一光发酵、暗发酵一微生物燃料电池的组合工艺是具有前景的技术。今后的研究方向是原料的预处理技术、选育高效产氢菌株、发明高效反应器、优化处理工艺和处理条件等。     

废物回收成气候健康发展是正道

有资料介绍,全世界90%的录像带在中国生产,而中国生产的录像带有90%出在广东,这些录像带绝大多数以进口废塑料为原料.广东不产铝,但南海等地以进口废铝材为主要原料生产的铝合金占了全国市场的1/3.得益于地理优势和生产传统,进口废物回收业近年来在广东发展迅速.据统计,1999年广东批准进口废物440万吨,2000年640万吨, 2001年800万吨.     

我国电子废物回收处理产业政策及机遇与挑战分析

针对近年我国频繁出台的电子废物回收处理产业政策,系统论述了其发展脉络,并从循环经济角度出发,分析了我国电子废物产业发展的主体思路,同时还对我国电子废物回收处理产业发展机遇与存在的问题进行剖析,对如何稳定企业的电子废物来源、提升产业技术水平及降低企业运营成本进行建议性分析。     

Mineral wool waste in Europe: a review of mineral wool waste quantity,quality, and current recycling methods

The construction and demolition (C&D) industry has been identified as a major source of waste. European Union legislation states that, by 2020, 70 % of C&D waste must be prepared for reuse, recycled or recovered. European Union member states must increase their C&D waste recycling percentages in order to meet this binding target. Utilization of mineral wool waste, often considered unrecyclable, could improve the recycling percentage of C&D waste. In this article, mineral wool production and waste volumes are estimated based on information from the Eurostat database. A literature survey is conducted to collect information about mineral wool material properties, current recycling methods, and barriers to recycling of mineral wool, and suitable methods for separating mineral wool from C&D waste streams and the economic viability of mineral wool recycling are discussed. It is noted that accurate estimation of mineral wool waste volumes is problematic due to the fragmented nature of available data. Based on the literature review, current methods for recycling mineral wool waste include utilization of mineral wool waste as a raw material in various products. Barriers to recycling include economic questions and issues related to the purity and health effects of mineral wool waste. Material properties of mineral wool waste, such as fire resistance, could provide improved properties in products utilizing mineral wool waste as a raw material.     

Raw material potential of recyclable materials for fiber composites: a review study

The aim of this study is to investigate waste streams as a source of recyclable raw material for fiber composite production. Globally, vast volumes of waste are produced daily that are not recycled effectively. In this work, three different raw material sources are examined; industrial, construction and municipal solid waste streams. All three sources produce wastes that are currently underutilized. Usage areas for the waste material include use as a reinforcing fiber, as part of the plastic matrix or as a filler. The industrial sector produces more homogenous waste, while waste from municipalities is mixed. Irregular material flow, the varying condition of the waste and different pretreatments used pose difficulties for recycling. Furthermore, some materials are industry-specific and may be produced in only certain areas. Despite these difficulties, huge amount of potentially useful exploitable waste is available and using different waste streams as a part of wood-plastic composite production can reduce waste volumes disposed to landfill.     

Utilization of kaolin processing waste for the production of porous ceramic bodies

The kaolin processing industry generates large amounts of waste in producing countries such as Brazil. The aim of this study was to characterize kaolin processing waste and evaluate its suitability as an alternative ceramic raw material for the production of porous technical ceramic bodies. The waste material was physically and chemically characterized and its thermal behaviour is described. Several formulations were prepared and sintered at different temperatures. The sintered samples were characterized to determine their porosity, water absorption, firing shrinkage and mechanical strength. Fired samples were microstructurally analysed by X-ray diffraction and scanning electron microscopy. The results indicated that the waste consisted of quartz, kaolinite, and mica, and that ceramic formulations containing up to 66% of waste can be used for the production of ceramics with porosities higher than 40% and strength of about 70 MPa.     

Characterizing emissions from open burning of military food waste and ration packaging compositions

Emissions from open burning of military food waste and ration packaging compositions were characterized in response to health concerns from open burning disposal of waste, such as at military forward operating bases. Emissions from current and prototype Meals, Ready-to-Eat (MREs), and material options for their associated fiberboard packaging were quantified to assess contributions of the individual components. MREs account for 67–100% of the particulate matter (PM), volatile organic compounds (VOCs), polycyclic aromatic hydrocarbons (PAHs), and polychlorinated dibenzo-p-dioxins and -furans (PCDDs/PCDFs) emissions when burned in unison with the current fiberboard container and liner. The majority of the particles emitted from these burns are of median diameter 2.5 µm (PM_2.5). Metal emission factors were similar regardless of waste composition. Measurements of VOCs and PAHs indicate that targeted replacement of MRE components may be more effective in reducing emissions than variation of fiberboard-packaging types. Despite MRE composition variation, equivalent emission factors for PM, PAH, VOC, and PCDD/PCDF were seen. Similarly, for fiberboard packaging, composition variations exhibited essentially equivalent PM, PAH, VOC, and PCDD/PCDF emission factors amongst themselves. This study demonstrated a composition-specific analysis of waste burn emissions, assessing the impact of waste component substitution using military rations.     

硫酸亚铁的综合利用

以工业废弃物硫酸亚铁为原料,加入碳酸氢铵和氯化钾,通过一系列化学反应和过滤、蒸发、煅烧等步骤,可制得硫酸钾、氯化铵、氧化铁红和液态二氧化碳.原料中各主要成分的利用率均达94%以上.     

Energy or compost from green waste? – A CO2 – Based assessment

Green waste is increasingly extracted from the material recycling chain and, as a result of the financial subsidy arising from the German renewable energy law for the generation of energy from renewable raw materials; it is fed into the energy recovery process in biomass power stations. A reduction in climate relevant gases is also linked to the material recovery of green waste – in particular when using composts gained from the process as a new raw material in different types of potting compost and plant culture media as a replacement for peat. Unlike energy recovery, material valorisation is not currently subsidised. Through the analysis of material and energy valorisation methods for green waste, with particular emphasis on primary resource consumption and CO₂-balance, it could be determined that the use of green waste for energy generation and its recovery for material and peat replacement purposes can be considered to be on a par. Based on energy recovery or material oriented scenarios, it can be further deduced that no method on its own will achieve the desired outcome and that a combination of recycling processes is more likely to lead to a significant decrease of greenhouse gas emissions.     

Waste plastics recycling process using coke ovens

The Japan Iron and Steel Federation (JISF), as its voluntary energy-saving action plan, proposed a 10% energy reduction by 2010 with 1990 as the basis. Further, it has suggested an additional 1.5% energy saving by the use of waste plastics as a metallurgical raw material. The amount of processing of waste plastics which corresponds to this amount of energy conversion is about 1 million t scale during 1 year. Conventional known methods for recycle-processing of waste plastics include, for example, the method of injection into a blast furnace to use waste plastics as an iron-ore reducing agent instead of coal. On the other hand, the coking process is considered to be suitable as a waste plastic recycling facility because the process involves coal carbonization in a high-temperature and reducing atmosphere. Carbonization tests with mixed waste plastics were conducted with laboratory equipment and in actual coke ovens. As a result, it was confirmed that the waste plastics recycling process using coke ovens is feasible. Therefore, a waste plastics recycling process using coke ovens was started as a chemical recycling technology at Nippon Steel.     

Comparison of composting of chemically pretreated and fermented sugarcane bagasse for zero-waste biorefinery

Journal of Material Cycles and Waste Management - Sugar industries produce vast quantity of sugarcane bagasse (SCB) waste which is used as raw material by biorefineries; however, the resulted...     

Elaboration of geopolymer binder from pharmaceutical glass waste and optimization of its synthesis parameters

Journal of Material Cycles and Waste Management - The objective of this study is to manufacture a new geopolymer binder from pharmaceutical glass waste as a main raw material. The geopolymer...