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dc.contributor.authorSanyé-Mengual, E.
dc.contributor.authorLlorach Massana, Pere
dc.contributor.authorSanjuan Demás, David
dc.contributor.authorOliver-Solà, Jordi
dc.contributor.authorJosa Garcia-Tornel, Alejandro
dc.contributor.authorMontero, Juan Ignacio
dc.contributor.authorRieradevall Pons, Joan
dc.contributor.otherUniversitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental
dc.identifier.citationSanyé-Mengual, E., Llorach, P., SanJuan-Demás, D., Oliver-Solà, J., Josa, A., Montero, J., Rieradevall, J. The ICTA-ICP Rooftop Greenhouse Lab (RTG-Lab): closing metabolic flows (energy, water, CO2) through integrated Rooftop Greenhouses. A: AESOP Sustainable Food Planning conference. "Finding Places for Productive Cities. Proceedings of 6th International AESOP Sustainable Food Planning Conference". Leeuwarden: 2014, p. 693-701.
dc.description.abstractThe ICTA-ICP Rooftop Greenhouse Lab (RTG-Lab) is a research-oriented RTG situated in the UAB Campus (Bellaterra, Barcelona). In contrast to current RTGs, the RTG-Lab integrates energy, water and CO2 flows into the building’s metabolism. This integrated RTG (i-RTG) is an eco-innovative concept that will enhance the sustainability of both systems involved while producing high-value crops and maintaining indoor comfort in buildings with lower energy inputs. The RTG-Lab, within the Fertilecity project, aims to demonstrate the feasibility of producing vegetables in i-RTGs in the Mediterranean context and to quantify the environmental and economic performance of the metabolic integration between the greenhouse and the building. To do that, experimental crops (lettuce and tomato) in soil-less culture systems (perlite) will start on Fall 2014. Preliminary data of the metabolic integration is described in this contribution. First, the residual heat from the building will be introduced in the greenhouse to maintain crop temperatures. Moreover, the airflow from the building will help the ventilation of the greenhouse in hot episodes. Second, the rainwater collected in the rooftop of the building will be used for the irrigation of the crop, leading into a 100% water self-sufficient crop. Third, the airflow from the building has a higher CO2 concentration than the greenhouse air. This CO2 will be used by the crop when supplied to the greenhouse, as in current CO2-injection techniques in industrial horticulture.
dc.format.extent9 p.
dc.subjectÀrees temàtiques de la UPC::Desenvolupament humà i sostenible::Desenvolupament sostenible
dc.subject.lcshSustainable buildings
dc.subject.otherrooftop farming
dc.subject.otherbuilding-integrated agriculture
dc.subject.otherurban agriculture
dc.subject.otherlocal production
dc.subject.otherindustrial ecology
dc.titleThe ICTA-ICP Rooftop Greenhouse Lab (RTG-Lab): closing metabolic flows (energy, water, CO2) through integrated Rooftop Greenhouses
dc.typeConference report
dc.subject.lemacEdificis sostenibles
dc.contributor.groupUniversitat Politècnica de Catalunya. MECMAT - Mecànica de Materials
dc.rights.accessRestricted access - publisher's policy
dc.description.versionPostprint (published version)
local.citation.authorSanyé-Mengual, E.; Llorach, P.; SanJuan-Demás, D.; Oliver-Solà, J.; Josa, A.; Montero, J.; Rieradevall, J.
local.citation.contributorAESOP Sustainable Food Planning conference
local.citation.publicationNameFinding Places for Productive Cities. Proceedings of 6th International AESOP Sustainable Food Planning Conference

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