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Effects of the membrane-covered technology and superphosphate on the compost quality and nitrogen-containing gas emissions during aerobic composting

Jie Cao, Ruirong Li, Haoli Qu, Pengjun Wang, Jingjing Fu, Mingjiang Chen, Yongsheng Chen

2022BioResources14 citationsDOIOpen Access PDF

Abstract

A lab-scale experiment was conducted to assess effects of the membrane-covered technology and superphosphate on the compost quality and emissions of nitrogen-containing gases during aerobic composting. The results showed that the membrane-covered technology increased the temperature of the compost pile and accelerated degradation of organic matter. The membrane-covered (T1) sample attained a germination index (GI) of 50% and 80%, approximately 2 and 9 d earlier, respectively, relative to the control (CK) sample. However, the application of superphosphate might have an adverse effect on the GI value. The NH3 and N2O emissions during the aerobic composting were decreased by 25.8% and 13.1%, respectively, for the T1 sample compared to the CK sample, while these were reduced correspondingly by 21.3% and 27.2% for the superphosphate addition (T2) sample. Compared with the superphosphate addition, the membrane-covered approach reduced the NH3 emission but not the N2O emission. Thus, the membrane-covered aerobic composting is a potential technology for the adequate utilization of organic waste as a resource.

Topics & Concepts

CompostNitrogenOrganic matterChemistryMembraneControl samplePulp and paper industryWaste managementEnvironmental scienceAgronomyAnimal scienceFood scienceBiologyBiochemistryOrganic chemistryEngineeringComposting and Vermicomposting Techniques
Effects of the membrane-covered technology and superphosphate on the compost quality and nitrogen-containing gas emissions during aerobic composting | Litcius