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Jeanger P Juanga Chettiyappen Visvanathan Josef Tr?nkler 《Waste management & research》2007,25(1):30-38
The optimization of anaerobic digestion aims to maximize organic waste stabilization after a short digestion period. This paper presents the optimization performance of the combined anaerobic digestion and sequential staging concept in a thermophilic, solid-state batch system as a treatment technology prior to landfill. The former involves enhanced pre-stage flushing with the addition of microaeration and inoculum in the methane phase. The latter involves leachate cross-recirculation between the mature and fresh waste reactors without conducting a pre-stage operation. The optimized process for combined anaerobic digestion showed that reducing the pre-stage operation with the maximum removal of organics from the waste bed is beneficial. Moreover, the sequential staging concept offers an improved process over the combined anaerobic digestion wherein the specific methane yield of 11.9 and 7.2 L CH4 kg(-1) volatile solids (VS) per day was achieved, respectively. After 28 days of operation, the sequential staging process showed an improved waste stabilization with 86 and 79% mass and volume reduction, respectively. A higher methane yield of 334 L CH4 kg(-1) VS with 86% VS reduction, which is equivalent to 84% process efficiency was obtained. 相似文献
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The increasing municipal solid waste (MSW) generation along with the high fraction of organic waste and a common disposal
of open dumping is the current scenario in many areas in Thailand. As a response to this problem, the country’s Pollution
Control Department (PCD) aims to reduce the MSW generation rate to less than 1 kg/capita/day, increase the collection efficiency,
and improve the recovery of recyclables. For many years, more than 60% of the solid waste disposal system in Thailand has
been carried out by open dumping. According to the survey conducted by this study, in 2004 there were 425 disposal sites (95
landfills; 330 open dumps) in Thailand and an estimated methane emission of 115.4 Gg/year was generated based on this practice.
It has been estimated that the anticipated methane emission in Thailand will rise from 115.4 Gg/year to 118.5 Gg/year if the
largest open dumpsites in provinces with no existing landfill are upgraded to sanitary landfill; and it will increase to 193.5 Gg/year
if the existing sanitary landfill is upgraded to integrated waste management facilities. Moreover, Bangkok metropolitan have
the highest methane emission (54.83 Gg/year) among all the regions in Thailand. The methane emission forecast of 339 Gg/year
by 2020 (based on LandGEM methodology) provides a stimulus to create a comprehensive plan to capture and utilize methane as
an energy source. 相似文献
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