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1.
H. Ozaki K. Sharma C. Phanuwan K. Fukushi C. Polprasert 《Journal of Material Cycles and Waste Management》2003,5(1):0031-0038
This paper deals with the present scenario of hazardous waste management practices in Thailand, and gives some insights into
future prospects. Industrialization in Thailand has systematically increased the generation of hazardous waste. The total
hazardous waste generated in 2001 was 1.65 million tons. It is estimated that over 300 million kg/year of hazardous waste
is generated from nonindustrial, community sources (e.g., batteries, fluorescent lamps, cleansing chemicals, pesticides).
No special facilities are available for handling these wastes. There are neither well-established systems for separation,
storage, collection, and transportation, nor the effective enforcement of regulations related to hazardous wastes management
generated from industrial or nonindustrial sectors. Therefore, because of a lack of treatment and disposal facilities, these
wastes find their way into municipal wastewaters, public landfills, nearby dump sites, or waterways, raising serious environmental
concern. Furthermore, Thailand does not have an integrated regulatory framework regarding the monitoring and management of
hazardous materials and wastes. In addition to the absence of a national definition of hazardous wastes, limited funding has
caused significant impediments to the effective management of hazardous waste. Thus, current waste management practices in
Thailand present significant potential hazards to humans and the environment. The challenging issues of hazardous waste management
in Thailand are not only related to a scarcity of financial resources (required for treatment and disposal facilities), but
also to the fact that there has been no development of appropriate technology following the principles of waste minimization
and sustainable development. A holistic approach to achieving effective hazardous waste management that integrates the efforts
of all sectors, government, private, and community, is needed for the betterment of human health and the environment.
Received: February 26, 2001 / Accepted: October 11, 2002 相似文献
2.
介绍了中国电器科学研究院近期研制开发的电镀、氧化等金属表面处理新型生产线。对生产线各相关系统进行研究,通过改进与创新,达到清洁、节能、智能化等目的。 相似文献
3.
上海市区排水管道通沟污泥处理处置探讨 总被引:2,自引:0,他引:2
介绍了上海市排水管道通沟污泥处理处置现状及存在的问题.就如何合理有效的处理处置市区通沟污泥,从拓展污泥处置出路、建立污泥中转体系、出台配套管理措施等3个方面提出了对策建议. 相似文献
4.
重庆市城市污水厂污泥的处理与处置 总被引:10,自引:0,他引:10
分析了目前重庆市城市污水厂污泥的处理与处置现状 ,对今后重庆市城市污水厂污泥的管理进行了探讨 ,提出了几个应注意的问题。 相似文献
5.
苏南地区航道底泥重金属污染评价和处置对策 总被引:11,自引:0,他引:11
对苏南地区六条航道底泥中重金属镉、汞、铜、锌、铅的污染现状进行了调查和评价。结果表明各航道底泥中重金属除铅以外 ,含量均超过《土壤环境质量标准》中的二级标准 ,其中镉的污染最为严重。底泥的总体环境质量为 :重污染断面占 4 4.8% ,中污染断面占 37.9% ,轻污染和未污染断面分别占 1 0 .3%和 6.9%。根据评价结果 ,提出底泥处置的对策措施 相似文献
6.
It is common to use the results of various solid-phase and aqueous-fraction toxicity tests as part of the decision-making
process for selecting disposal options for dredged sediments. The mere presence of toxicity, however, does not provide a logical
basis for selecting economical, environmentally protective disposal techniques. To achieve this, it is necessary to be able
to identify specific compounds responsible for sediment toxicity. Toxicity identification evaluation (TIE) procedures, originally
developed for complex effluents, represent a useful approach for identifying acutely toxic compounds in dredged materials.
Herein we present a conceptual overview for TIE use in part of the decision-making framework for selecting dredged material
disposal options; included are discussions concerning appropriate test fractions and species for TIE analyses, and specific
TIE manipulations useful for ascertaining whether toxicity is due to any of a number of common sediment contaminants including
ammonia, hydrogen sulfide, metals, or nonpolar organics. 相似文献
7.
8.
Istanbul has experienced rapid increases in population to more than 12 million people, which has created infrastructure problems of water supply and wastewater treatment and disposal. In this article, the achievements and approaches of the Istanbul Water and Sewerage Administration (ISKI) to solve the water shortage problem and to improve services are summarized. Istanbul had a very severe water shortage problem in 1994 because of ignorance of the implementation of the needed projects. After reviewing the reasons and causes of the problem, new priority criteria adopted after 1994 are given. Following the implementation of the projects determined according to the aforementioned criteria, water supplied has exceeded the water demand. The added capacity is equal to one to three times of the capacity built up to 1994 for water treatment, service reservoirs, pumping stations, transmission lines, and the water distribution network; water quality has been improved the meet local and international potable water standards. Unaccounted for water has been reduced from 60% to 27%. The percentage of treated wastewater has been increased from 10% to 90% in 8 years, resulting in drastic improvements and rehabilitation of the Golden Horn and coastal water quality. Through improved customer services, complaints were reduced from 33% in 1994 to 0.3%. Some of the main criteria and the approaches behind this success are summarized.
Published online 相似文献
9.
Characteristic levels of metal ions in post dredged sediment and dredged sediments materials of a municipal creek in the Niger
Delta show that significant concentrations of heavy metals are found to be accumulated more on the surface (0–15cm depth)
of the dredged material as compared to the sub surface (15–30cm) and post dredged sediments. The distribution patterns were
in the following order Fe > Mn > Zn > Cu > Pb > Ni > Cd and Fe > Mn > Zn > Pb > Cu > Ni > Cd for the post dredged sediment
and dredged sediment materials respectively. The levels of the various metals were far below the EPA screening levels for
open water disposal, consequently total levels of heavy metal found in these sediments pose no problem by open-water or upland
disposal 相似文献
10.