Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Energy-saving potential in Indian open-plan offices using Micro-Zonal Occupant Centric Control (MZOCC)
https://orcid.org/0000-0003-4891-2503
https://orcid.org/0000-0003-3149-4747
Highlights Study addresses operational issues in Micro-Zonal Occupant Centric Control (MZOCC). Transient analysis of cooling under MZOCC performed for a typical Indian office. Setback flow in in unoccupied micro-zones helps reduce thermal gradients. Setback temperature in unoccupied micro-zones reduces inter-micro-zonal interaction. MZOCC can save 60% of energy at just 4%–5% additional investment.
Abstract HVAC energy consumption can be reduced by air-conditioning only the regions which are occupied. Though occupancy-based smart controllers are common in this regard, they are mostly used for physically separated HVAC zones. Only limited studies have explored localized conditioning within HVAC zones. Micro-zonal occupant-centric control (MZOCC) aims at maintaining a target air temperature only in the virtual micro-zones where occupants are present, leaving other regions unconditioned. There is a need to understand the potential of MZOCC in terms of investment and energy savings and develop strategies for improving it. This study addresses these research gaps by exploring MZOCC in a typical Indian open-plan office using an experimentally validated CFD model. Cooling pattern, energy consumption and thermal contours for varying (1) diffuser arrangement, (2) airflow control, and (3) occupancy conditions are explored. The study’s key findings are (1) MZOCC induces substantial energy savings at minimal additional investment; (2) Strategizing diffuser location and airflow control are required to avoid merging of air jets and heavy thermal gradients; (3) Using a low-velocity flow (setback-flow) or maintaining a higher setpoint temperature (setback-temperature) in unoccupied micro-zones improves the efficiency of MZOCC. This study extends the literature on MZOCC by addressing operational challenges in MZOCC.
Energy-saving potential in Indian open-plan offices using Micro-Zonal Occupant Centric Control (MZOCC)
https://orcid.org/0000-0003-4891-2503
https://orcid.org/0000-0003-3149-4747
Highlights Study addresses operational issues in Micro-Zonal Occupant Centric Control (MZOCC). Transient analysis of cooling under MZOCC performed for a typical Indian office. Setback flow in in unoccupied micro-zones helps reduce thermal gradients. Setback temperature in unoccupied micro-zones reduces inter-micro-zonal interaction. MZOCC can save 60% of energy at just 4%–5% additional investment.
Abstract HVAC energy consumption can be reduced by air-conditioning only the regions which are occupied. Though occupancy-based smart controllers are common in this regard, they are mostly used for physically separated HVAC zones. Only limited studies have explored localized conditioning within HVAC zones. Micro-zonal occupant-centric control (MZOCC) aims at maintaining a target air temperature only in the virtual micro-zones where occupants are present, leaving other regions unconditioned. There is a need to understand the potential of MZOCC in terms of investment and energy savings and develop strategies for improving it. This study addresses these research gaps by exploring MZOCC in a typical Indian open-plan office using an experimentally validated CFD model. Cooling pattern, energy consumption and thermal contours for varying (1) diffuser arrangement, (2) airflow control, and (3) occupancy conditions are explored. The study’s key findings are (1) MZOCC induces substantial energy savings at minimal additional investment; (2) Strategizing diffuser location and airflow control are required to avoid merging of air jets and heavy thermal gradients; (3) Using a low-velocity flow (setback-flow) or maintaining a higher setpoint temperature (setback-temperature) in unoccupied micro-zones improves the efficiency of MZOCC. This study extends the literature on MZOCC by addressing operational challenges in MZOCC.
Energy-saving potential in Indian open-plan offices using Micro-Zonal Occupant Centric Control (MZOCC)
https://orcid.org/0000-0003-4891-2503
https://orcid.org/0000-0003-3149-4747
Highlights Study addresses operational issues in Micro-Zonal Occupant Centric Control (MZOCC). Transient analysis of cooling under MZOCC performed for a typical Indian office. Setback flow in in unoccupied micro-zones helps reduce thermal gradients. Setback temperature in unoccupied micro-zones reduces inter-micro-zonal interaction. MZOCC can save 60% of energy at just 4%–5% additional investment.
Abstract HVAC energy consumption can be reduced by air-conditioning only the regions which are occupied. Though occupancy-based smart controllers are common in this regard, they are mostly used for physically separated HVAC zones. Only limited studies have explored localized conditioning within HVAC zones. Micro-zonal occupant-centric control (MZOCC) aims at maintaining a target air temperature only in the virtual micro-zones where occupants are present, leaving other regions unconditioned. There is a need to understand the potential of MZOCC in terms of investment and energy savings and develop strategies for improving it. This study addresses these research gaps by exploring MZOCC in a typical Indian open-plan office using an experimentally validated CFD model. Cooling pattern, energy consumption and thermal contours for varying (1) diffuser arrangement, (2) airflow control, and (3) occupancy conditions are explored. The study’s key findings are (1) MZOCC induces substantial energy savings at minimal additional investment; (2) Strategizing diffuser location and airflow control are required to avoid merging of air jets and heavy thermal gradients; (3) Using a low-velocity flow (setback-flow) or maintaining a higher setpoint temperature (setback-temperature) in unoccupied micro-zones improves the efficiency of MZOCC. This study extends the literature on MZOCC by addressing operational challenges in MZOCC.
Energy-saving potential in Indian open-plan offices using Micro-Zonal Occupant Centric Control (MZOCC)
Jacob, Jeslu Celine (Autor:in) / Pandit, Debapratim (Autor:in) / Sen, Joy (Autor:in)
Energy and Buildings ; 282
09.01.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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