Sökning: "MSWI"
Visar resultat 1 - 5 av 9 uppsatser innehållade ordet MSWI.
1. A Price-based Demand Response Programme for an Industrial Company : A Case Study of the Waste Management Industry
Master-uppsats, KTH/Skolan för elektroteknik och datavetenskap (EECS)Sammanfattning : Climate change mitigation and sustainable economic development areon the main agenda of many developed countries. Moreover, emerging economies,such as China which makes up 18.5% of the world’s population, are facingmajor problems of air and water pollution. LÄS MER
2. Leach tests on MSWI bottomash from CHP Dåva to reduceCu, Pb and Zn
Kandidat-uppsats, Umeå universitet/Kemiska institutionenSammanfattning : .... LÄS MER
3. Slagg - en koldioxidsänka? En studie av karbonatisering i slagg från förbränning av hushålls- och industriavfall
Uppsats för yrkesexamina på avancerad nivå, Lunds universitet/Miljö- och energisystem; Lunds universitet/Ekosystemteknik (CI)Sammanfattning : From incineration of industrial- and household waste bottom ash is generated. A large volume of bottom ash is generated yearly in both Sweden and Europe. The natural carbonation process, which involves a reaction between carbon dioxide and calcium in the material, is initiated when the bottom ash reaches contact with air. LÄS MER
4. Upgrading of Landfill Gas with Household Waste Slag
Master-uppsats, KTH/Skolan för kemivetenskap (CHE)Sammanfattning : Modern landfills produce landfill gas, LFG, on a smaller scale and with limited content of degradable organic materials in the waste. The waste deposit in the Sofielund landfill began in 2005 and the final coverage is not yet commenced. The landfill waste must contain up to 10% decomposable organic materials at most. LÄS MER
5. Energy recovery of metallic aluminium in MSWI bottom ash : Different approaches to hydrogen production from MSWI bottom ash: A case study
Uppsats för yrkesexamina på avancerad nivå, Umeå universitet/Institutionen för tillämpad fysik och elektronikSammanfattning : Most of the wastes in Sweden end up in incinerator plants. These trashes are full of metals, especially aluminium, which will not oxidize, they can’t always be recycled and they will instead oxidize in water and leak hydrogen gas to its surrounding. Estimations calculate it could be an average potential of around 40-50 kWh/ton of burnt trash. LÄS MER