Soil quality of garden plants is an important factor for good growth of garden plants.Based on the analysis of the current situation of garden soil,the ecological value and feasibility of composting technology applied...Soil quality of garden plants is an important factor for good growth of garden plants.Based on the analysis of the current situation of garden soil,the ecological value and feasibility of composting technology applied in garden soil improvement were discussed.This study provided a basis for strengthening the quality management of garden soil,improving the standard of garden soil improvement,and helping the healthy and sustainable development of modern garden greening.展开更多
During space missions,various waste products are produced.Recyclable waste can be treated by aerobic composting to achieve in situ recycling.Considering the limited logistics supply in the Controlled Ecological Life S...During space missions,various waste products are produced.Recyclable waste can be treated by aerobic composting to achieve in situ recycling.Considering the limited logistics supply in the Controlled Ecological Life Support System(CELSS),waste recycling should reduce energy consumption and material carrying pressure,increase recycling efficiency,and improve the quality of the daily life of astronauts.However,current composting technology often has polluting gas emissions in the case of limited oxygen(O_(2))consumption.Therefore,this review aims to distill available information about aerospace mission waste production and its treatment methods,analyze the influencing factors of composting,and summarize optimal O_(2) demand of aerobic composting of aerospace biomass waste.It also aims to define optimal O_(2) demand of each stage of aerobic composting of organic waste in order to achieve a low O_(2) consumption composting technology for the extraterrestrial planet base.The main recyclable wastes(feces,food residue,and non-edible parts of plants or crops)generated in CELSS are expected to be 0.13 kg,0.31 kg,and 2.12 kg/person/day,which requires 0.173 to 0.692 kg of O_(2) for the normal composting process.Due to the change of the degradation rate at different stages,the O_(2) demand of each stage is different.In detail,the different stages for varying O_(2) requirements are the heating period:0.022 to 0.032 L·kg^(−1).dry matter(DM)·min^(−1),the thermophilic period:0.027 to 0.05 L·kg^(−1).DM·min^(−1),and the cooling period:0.006 to 0.02 L·kg^(−1).DM·min^(−1).The O_(2) demand of aerospace biomass waste compost could be 0.022 to 0.153 L.kg−1.DM.min−1.Adequate O_(2) supply according to these requirements could reduce O_(2) consumption and potential pollutant emission.展开更多
基金Sponsored by Undergraduate Innovation and Entrepreneurship Training Project of Tianjin City in 2018(201810061089)Agricultural Science and Technology Plan Project of Baodi District(2018035)The University Young and Middle-aged Backbone Innovation Talent Training Program in Tianjin(J01009030709)
文摘Soil quality of garden plants is an important factor for good growth of garden plants.Based on the analysis of the current situation of garden soil,the ecological value and feasibility of composting technology applied in garden soil improvement were discussed.This study provided a basis for strengthening the quality management of garden soil,improving the standard of garden soil improvement,and helping the healthy and sustainable development of modern garden greening.
基金supported by the Foundation of National Key Laboratory of Human Factors Engineering (Grant no. 6142222210702).
文摘During space missions,various waste products are produced.Recyclable waste can be treated by aerobic composting to achieve in situ recycling.Considering the limited logistics supply in the Controlled Ecological Life Support System(CELSS),waste recycling should reduce energy consumption and material carrying pressure,increase recycling efficiency,and improve the quality of the daily life of astronauts.However,current composting technology often has polluting gas emissions in the case of limited oxygen(O_(2))consumption.Therefore,this review aims to distill available information about aerospace mission waste production and its treatment methods,analyze the influencing factors of composting,and summarize optimal O_(2) demand of aerobic composting of aerospace biomass waste.It also aims to define optimal O_(2) demand of each stage of aerobic composting of organic waste in order to achieve a low O_(2) consumption composting technology for the extraterrestrial planet base.The main recyclable wastes(feces,food residue,and non-edible parts of plants or crops)generated in CELSS are expected to be 0.13 kg,0.31 kg,and 2.12 kg/person/day,which requires 0.173 to 0.692 kg of O_(2) for the normal composting process.Due to the change of the degradation rate at different stages,the O_(2) demand of each stage is different.In detail,the different stages for varying O_(2) requirements are the heating period:0.022 to 0.032 L·kg^(−1).dry matter(DM)·min^(−1),the thermophilic period:0.027 to 0.05 L·kg^(−1).DM·min^(−1),and the cooling period:0.006 to 0.02 L·kg^(−1).DM·min^(−1).The O_(2) demand of aerospace biomass waste compost could be 0.022 to 0.153 L.kg−1.DM.min−1.Adequate O_(2) supply according to these requirements could reduce O_(2) consumption and potential pollutant emission.
