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Co-simulating a greenhouse in a building to quantify co-benefits of different coupled configurations

Melanie Jans-Singh, Rebecca Ward, Ruchi Choudhary

2021Journal of Building Performance Simulation21 citationsDOIOpen Access PDF

Abstract

Recent findings suggest that rooftop greenhouses could be more efficient when combined with waste streams in buildings, but there is a gap in quantification of the combined performance of building integrated greenhouses. This paper addresses this deficit for school buildings in London, UK, where urban agriculture is of increasing interest. A building energy simulation (BES) of an archetype school building is developed in EnergyPlus and co-simulated with a validated greenhouse energy simulator (GES). The performance of different greenhouse-building coupling configurations is evaluated to estimate the potential for crop growth, heat recovery and reduction in ventilation demand, through a sensitivity analysis and parametric study. Our results show that a 250 m greenhouse on the top floor of the school could produce 6t lettuce with half the energy demand of the same standalone greenhouse. Trade-offs across increase in humidity, yields, and energy efficiency indicate the importance of modelling to ensure optimal designs.

Topics & Concepts

GreenhouseEnvironmental scienceGreenhouse gasMicroclimateVentilation (architecture)Environmental engineeringAgricultural engineeringEngineeringArchitectural engineeringMechanical engineeringBiologyHorticultureEcologyArchaeologyHistoryGreenhouse Technology and Climate ControlUrban Agriculture and SustainabilityUrban Heat Island Mitigation