[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"doc-detail-28748":3,"doc-seo-28748":26},{"code":4,"msg":5,"data":6},0,"success",{"doc_id":7,"user_id":8,"nickname":9,"user_avatar":10,"doc_module":4,"category_id":11,"category_name":12,"doc_title":13,"doc_description":14,"file_id":15,"file_url":16,"file_type":17,"file_size":18,"view_count":4,"is_deleted":4,"is_public":19,"is_downloadable":19,"audit_status":19,"page_count":20,"language":21,"language_code":22,"table_of_contents":23,"faqs":23,"seo_title":13,"seo_description":14,"update_tm":24,"read_time":25},28748,4398048950312,"Violet","https://ap-avatar.wpscdn.com/avatar/400002538284de19e3c?_k=1778320343897328908",8,"Research & Report","Characterization of landfill-mined materials as a waste-to-energy source at integrated solid waste treatment facilities of Jakarta Province, Indonesia","Energy scarcity drives Indonesia to expand renewable energy through recovery of landfilled waste. This study characterizes landfill-mined materials from integrated solid waste treatment facilities in Jakarta Province to assess their suitability for waste-to-energy applications. Minimum 100 kg/day samples were collected from transport trucks over eight consecutive days in both rainy and dry seasons in 2022 and separated into fine, medium, and coarse fractions (\u003C10 mm, 10–30 mm, >30 mm). Calorific value, moisture, volatile solids, ash, fixed solids, and chlorine were measured using ASTM and APHA methods. The coarse fraction dominated composition (66.11–66.39%) and showed RDF potential with calorific value 18.75–20.88 MJ/kg and volatile solids 82.37–83.80%, while moisture exceeded RDF limits and drying is required. Heavy metals and chlorine in the coarse fraction warrant concern for cement kiln operations, cement quality, and environmental impacts.","cbCaicgUnd5vAvda","https://ap.wps.com/l/cbCaicgUnd5vAvda","pdf",1603727,1,13,"English","en","",1778280405,33,{"code":4,"msg":27,"data":28},"ok",{"site_id":29,"language":22,"slug":30,"title":13,"keywords":23,"description":14,"schema_data":31,"social_meta":65,"head_meta":67,"extra_data":69,"updated_unix":24},105,"characterization-of-landfill-mined-materials-as-a-waste-to-energy-source-at-integrated-solid-waste-treatment-facilities-of-jakarta-province-indonesia",{"@graph":32,"@context":64},[33,50],{"@type":34,"itemListElement":35},"BreadcrumbList",[36,40,44,47],{"item":37,"name":38,"@type":39,"position":19},"https://docshare.wps.com","Home","ListItem",{"item":41,"name":42,"@type":39,"position":43},"https://docshare.wps.com/document/","Document",2,{"item":45,"name":12,"@type":39,"position":46},"https://docshare.wps.com/document/research-report/",3,{"item":48,"name":13,"@type":39,"position":49},"https://docshare.wps.com/document/characterization-of-landfill-mined-materials-as-a-waste-to-energy-source-at-integrated-solid-waste-treatment-facilities-of-jakarta-province-indonesia/28748",4,{"url":48,"name":13,"@type":51,"author":52,"headline":13,"publisher":54,"fileFormat":57,"description":14,"dateModified":58,"datePublished":58,"encodingFormat":57,"isAccessibleForFree":59,"interactionStatistic":60},"DigitalDocument",{"name":9,"@type":53},"Person",{"url":37,"name":55,"@type":56},"DocShare","Organization","application/pdf","2026-05-08",true,{"@type":61,"interactionType":62,"userInteractionCount":4},"InteractionCounter",{"@type":63},"ViewAction","https://schema.org",{"og:url":48,"og:type":66,"og:title":13,"og:site_name":55,"og:description":14},"article",{"robots":68,"canonical":48},"index,follow",{"doc_id":7,"site_id":29}]