Litcius/Paper detail

Investigation and Optimization of Co-Combustion Efficiency of Food Waste Biochar and Coal

Yoonah Jeong, Jae-Sung Kim, Ye-Eun Lee, Dong-Chul Shin, Kwang‐Ho Ahn, Jinhong Jung, Kyeong-Ho Kim, Min-Jong Ku, Seung Mo Kim, Chung‐Hwan Jeon, Hyo-Tae Kim

2023Sustainability10 citationsDOIOpen Access PDF

Abstract

Among the alternative recycling methods for food waste, its utilization as a renewable biomass resource has demonstrated great potential. This study presents empirical findings pertaining to the cofiring of solid biomass fuel and coal for power generation. Various co-combustion ratios involving food waste biochar (FWB) and coal (100:0, 85:15, 90:10, 95:5, and 0:100) were tested to optimize combustion efficiency, monitor the emissions of NOX, CO, and unburned carbon (UBC), assess ash deposition tendencies, and evaluate grindability. Two types of FWB and sewage sludge were selected as biomass fuels. The results demonstrated that co-combustion involving FWB reduced NOX and UBC emissions compared to coal combustion alone. In particular, the 10% FWB_A blend exhibited the best combustion efficiency. Notably, FWB demonstrated lower tendencies for ash deposition. The ash fusion characteristics were monitored via thermomechanical analysis (TMA), and the corresponding shrinkage levels were measured. Furthermore, FWB exhibited superior grindability compared to both coal and sewage sludge, reducing power consumption during fuel preparation. This study suggests that FWB is a valuable co-combustion resource in coal-fired power plants, thereby facilitating the efficient recycling of food waste while concurrently advancing clean energy generation. Nevertheless, further research is required to validate its practical applicability and promote its use as a renewable resource.

Topics & Concepts

CofiringCoalBiocharCombustionWaste managementBiomass (ecology)Environmental scienceCoal combustion productsSewage sludgeMunicipal solid wasteRenewable energyNOxEnvironmental engineeringChemistrySewage treatmentEngineeringPyrolysisGeologyElectrical engineeringOceanographyOrganic chemistryThermochemical Biomass Conversion ProcessesCoal and Its By-productsEnergy and Environment Impacts