Portal Tecnológico Portal comercial
Información tecnológica avanzada para empresas del metal
Está usted aquí: > Home > ArtículosSíguenos a través de Facebook
  Buscar en el Observatorio: 
Texto libre:
Desde   hasta
  Ficha de Artículos Técnicos: 
  Referencia 10257
Título: Uso de residuos industriales y comerciales en sistemas de recuperación energética. Estudio preliminar en el Reino Unido
Título original: The use of commercial and industrial waste in energy recovery systems – A UK preliminary study
Autor: Christopher J. Lupa, Lois J. Ricketts, Andy Sweetman, Ben M.J. Herbert
Resumen: With 2020 energy targets set out by the EU fast approaching, the UK is trying to source a higher proportion of its energy from renewable resources. Coupled with this, a growing population and increasing trends in consumer demand have resulted in national waste loads increasing. A possible solution to both issues is energy-from-waste (EfW) technologies. Many studies have focused on municipal solid waste (MSW) as a potential feedstock, but appear to overlook the potential benefits of commercial and industrial waste (C&IW). In this study, samples of C&IW were collected from three North West waste management companies and Lancaster University campus. The samples were tested for their gross and net calorific value, moisture content, ash content, volatile matter, and also elemental composition to determine their suitability in EfW systems. Intra-sample analysis showed there to be little variation between samples with the exception two samples, from waste management site 3, which showed extensive variation with regards to net calorific value, ash content, and elemental analysis. Comparisons with known fuel types revealed similarities between the sampled C&IW, MSW, and refuse derived fuel (RDF) thereby justifying its potential for use in EfW systems. Mean net calorific value (NCV) was calculated as 9.47 MJ/kg and concentrations of sulphur, nitrogen, and chlorine were found to be below 2%. Potential electrical output was calculated using the NCV of the sampled C&IW coupled with four differing energy generation technologies. Using a conventional incinerator with steam cycle, total electrical output was calculated as 24.9 GWh, based on a plant operating at 100,000 tpa. This value rose to 27.0 GWh when using an integrated gasification combined cycle. A final aspect of this study was to deduce the potential total national electrical output if all suitable C&IW were to be used in EfW systems. Using incineration coupled with a steam turbine, this was determined to be 6 TWh, 1.9% of the national demand thereby contributing 6.5% towards the UK’s 2020 renewable electricity target.
Idioma: Inglés     País: UK     ISBN / ISSN: 0956-053X     Año: 2011
Tipo: Artículo
Área: Medioambiente > Energía y ahorro energético
Entidad: Lancaster Environment Centre, University of Lancaster, Lancashire LA1 4YQ //Stopford Energy and Environment, Lancaster Environment Centre, University of Lancaster, Lancashire LA1 4YQ
Fuente: Waste Management
Localización en fuente: In Press, Corrected Proof, Available online 6 May
Descriptores: Obtención de energía a partir de residuos, residuos sólidos municipales, incineradores,
Envía esta noticia
email destinatario:
nombre o email remitente:
Si desea colaborar o hacernos sugerencias: otea@aimme.es
domingo, 26 de febrero de 2017 - © Copyright 2017 AIMME. Todos los derechos reservados.
Parque Tecnológico, Avda. Leonardo Da Vinci, 38. 46980 PATERNA (Valencia) SPAIN. Tel.: +34 96 131 85 59. Fax: +34 96 131 81 68