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A platform for research: civil engineering, architecture and urbanism
Detailed Assessment of Hybrid Ventilation Control in a Mixed-Mode Building in Cold Climate
This paper investigates a hybrid ventilation control method for a mixed-mode office landscape in a cold climate, i.e. Norway. The mixed-mode building utilizes a hybrid ventilation system that combines natural ventilation through automatic window opening with a balanced mechanical ventilation system controlled by demand control ventilation (DCV) method. For natural ventilation, the windows consist of two parts: the upper part which is openable and the lower part that is not openable and equipped with external solar shading. From a control point of view, the article elaborates a control algorithm for the proposed hybrid ventilation based on various parameters including outdoor air temperature, indoor air temperature, indoor CO2 level, maximum air change per hour (ACH), operation schedules, and heating/cooling setpoints. The simulation results obtained from the hybrid ventilation and mechanical ventilation cases are compared based on thermal comfort, indoor air quality (IAQ), and energy savings. The primary results show that the proposed hybrid ventilation control method can satisfy the thermal comfort and IAQ requirements while reducing the energy use for fan and ventilation cooling by approximately 25% and increasing the space and ventilation heating energy use by only about 4%. ; acceptedVersion
Detailed Assessment of Hybrid Ventilation Control in a Mixed-Mode Building in Cold Climate
This paper investigates a hybrid ventilation control method for a mixed-mode office landscape in a cold climate, i.e. Norway. The mixed-mode building utilizes a hybrid ventilation system that combines natural ventilation through automatic window opening with a balanced mechanical ventilation system controlled by demand control ventilation (DCV) method. For natural ventilation, the windows consist of two parts: the upper part which is openable and the lower part that is not openable and equipped with external solar shading. From a control point of view, the article elaborates a control algorithm for the proposed hybrid ventilation based on various parameters including outdoor air temperature, indoor air temperature, indoor CO2 level, maximum air change per hour (ACH), operation schedules, and heating/cooling setpoints. The simulation results obtained from the hybrid ventilation and mechanical ventilation cases are compared based on thermal comfort, indoor air quality (IAQ), and energy savings. The primary results show that the proposed hybrid ventilation control method can satisfy the thermal comfort and IAQ requirements while reducing the energy use for fan and ventilation cooling by approximately 25% and increasing the space and ventilation heating energy use by only about 4%. ; acceptedVersion
Detailed Assessment of Hybrid Ventilation Control in a Mixed-Mode Building in Cold Climate
Rabani, Mehrdad (author) / Petersen, Arnkell (author)
2023-08-29
cristin:2170651
Journal of Physics: Conference Series (JPCS)
Article (Journal)
Electronic Resource
English
DDC:
690
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