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Volume 38 Issue 10
Nov.  2020
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Article Contents
WANG Xiao-cheng, GUO Ying, YAN Kai-hong. TREATMENT OF DOMESTIC WASTE BY ULTRA-HIGH TEMPERATURE SPONTANEOUS HEATING AEROBIC COMPOSTING PROCESS[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(10): 183-189. doi: 10.13205/j.hjgc.202010029
Citation: WANG Xiao-cheng, GUO Ying, YAN Kai-hong. TREATMENT OF DOMESTIC WASTE BY ULTRA-HIGH TEMPERATURE SPONTANEOUS HEATING AEROBIC COMPOSTING PROCESS[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(10): 183-189. doi: 10.13205/j.hjgc.202010029

TREATMENT OF DOMESTIC WASTE BY ULTRA-HIGH TEMPERATURE SPONTANEOUS HEATING AEROBIC COMPOSTING PROCESS

doi: 10.13205/j.hjgc.202010029
  • Received Date: 2019-07-16
  • Ultra-high temperature spontaneous heating has been applied to aerobic composting of excess sludge. However, the effect of this technology on aerobic composting of domestic waste was not clear. In addition, the effect of nitrogen fixing agent calcium superphosphate (CS) on ultra-high temperature spontaneous heating aerobic composting for domestic waste treatment was not clear, either. In this study, the blank group (R1) and the composting system with CS (R2) were established. The changes of temperature, oxygen content, moisture content, greenhouse gas release, soluble COD and maturity index, in the process of super-high temperature spontaneous heating of domestic waste under the influence of CS were investigated. The effects of CS on the microbial community characteristics of domestic waste composting were analyzed. The results showed that the highest temperature of R2 was 80.3℃, higher than that of blank group, and the lowest oxygen content and water content were lower than that of R1. The maximum releasing rates of methane and N2O in R2 were 0.09 g/(kg·d) and 1.3 g/(kg·d), respectively, significantly lower than those in R1. The presence of CS was beneficial to nitrogen conservation in MSW composting. In addition, the maximum soluble COD content in R2 was 42.3 mg/g, slightly higher than that in R1. CS was beneficial to the release of organic matter in the reactor. The relative abundance of Saccharomonospor and Planifilum in R2 was 25.6% and 10.3% respectively, and the maturity of the stack was also higher.
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