A virtual thermostat for local temperature control

Alhashme, Mohamed

doi:10.1016/j.enbuild.2016.05.045

Cited by 20 publications

(9 citation statements)

References 52 publications

(50 reference statements)

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“…An identification method based on ANN model was proposed to study multi-zone buildings while taking into account thermal interactions effects between neighboring zones (Huang et al 2015). An average temperature around an occupant, numerically obtained by CFD method, was feedback to a local ON/OFF controller to decrease energy consumption (Alhashme and Ashgriz 2016). Zhang et al (2018aZhang et al ( , 2019 proposed a dynamic temperature control based on multi-node model for both stratum ventilation and displacement ventilation.…”

Section: Introductionmentioning

confidence: 99%

A modelling method for large-scale open spaces orientated toward coordinated control of multiple air-terminal units

et al. 2022

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The temperature distribution is always assumed to be homogeneous in a traditional single-input-single-output (SISO) air conditioning control strategy. However, the airflow inside is more complicated and unpredictable. This study proposes a zonal temperature control strategy with a thermal coupling effect integrated for air-conditioned large-scale open spaces. The target space was split into several subzones based on the minimum controllable air terminal units in the proposed method, and each zone can be controlled to its own set-point while considering the thermal coupling effect from its adjacent zones. A numerical method resorting to computational fluid dynamics was presented to obtain the heat transfer coefficients (HTCs) under different air supply scenarios. The relationship between heat transfer coefficient and zonal temperature difference was linearized. Thus, currently available zonal models in popular software can be used to simulate the dynamic response of temperatures in large-scale indoor open spaces. Case studies showed that the introduction of HTCs across the adjacent zones was capable of enhancing the precision of temperature control of large-scale open spaces. It could satisfy the temperature requirements of different zones, improve thermal comfort and at least 11% of energy saving can be achieved by comparing with the conventional control strategy. Electronic Supplementary Material (ESM) the Appendix is available in the online version of this article at 10.1007/s12273-022-0942-8.

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Section: Introductionmentioning

confidence: 99%

A modelling method for large-scale open spaces orientated toward coordinated control of multiple air-terminal units

et al. 2022

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“…5 It is not uncommon for heating and cooling flows, in the case of air conditioning systems, to be capable of rates of temperature change 5 to 10 times higher than surroundings heat loss/gains. 6,7 Even with a steady heat demand this creates a dynamic thermal environment where thermal energy is added to a space through the hydronic system until the flow is stopped when the room reaches its setpoint temperature (e.g. through a wall thermostat or thermostatic radiator valve, TRV).…”

Section: Introductionmentioning

confidence: 99%

“…The importance of what may appear only small changes to such cycling behaviour can have a significant influence on energy consumption (circa 15%). 7 In real-world scenarios where external temperatures, solar irradiance, meteorological conditions and occupant behaviours are fundamentally unsteady, the dynamic behaviour of the heating system is further exacerbated.…”

Section: Introductionmentioning

confidence: 99%

Opportunities for improved space heating energy efficiency from fluid property modifications

Williams

Innerdale

2022

Indoor and Built Environment

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Unsteady behaviour of hydronic heating systems causes higher mean room temperatures than are required for comfort. Peak room temperatures depend on interactions between thermostats, heat emitters and the room. The importance of fluid properties on such unsteady heating is often misunderstood meaning potential energy savings are overlooked. This paper demonstrates the influence of fluid modifications and indicates a plausible magnitude of the energy saving opportunity. The results showed that fluid side heat transfer coefficient in isolation had negligible effect. Specific heat capacity of the fluid and flow rates were important, as they altered the amount of embedded energy in the heat emitter when thermostat conditions were met. Reductions in mean heating power for steady demand conditions were between 0 and 7% for plausible changes to fluid properties, depending on heat emitter size, room insulation and external temperature. Reductions in individual cycle energy were between 5 and 25%. When considered in the context of intermittent finite duration heating events, those that contained a small number of thermostat cycles demonstrated energy savings that tended towards the reductions in individual cycle energy. Heating events with larger numbers of cycles showed energy savings tending towards the reduction in mean heating power.

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“…Madsen et al [14] observed a reduced fluctuation of the indoor temperature and a more constant temperature distribution across the room when the thermostat was placed in the centre of the room, compared to when it was placed on the wall. Alhasme and Ashgriz [15] simulated various temperature distributions within a room by using computational fluid dynamics (CFD) and reported that controlling the HVAC system based on the local temperature close to an occupant resulted in a 22% energy saving compared with a thermostat controlled from a single temperature sensor mounted on the wall. Huang et al [16] developed a CFD-aided method to generate a real-time temperature distribution of a room and optimize the location of wireless temperature sensors.…”

Section: Introductionmentioning

confidence: 99%

Differences in temperature measurement by commercial room temperature sensors: Effects of room cooling system, loads, sensor type and position

Shinoda

Mylonas

Kazanci

et al. 2021

Energy and Buildings

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A virtual thermostat for local temperature control

Cited by 20 publications

References 52 publications

A modelling method for large-scale open spaces orientated toward coordinated control of multiple air-terminal units

A modelling method for large-scale open spaces orientated toward coordinated control of multiple air-terminal units

Opportunities for improved space heating energy efficiency from fluid property modifications

Differences in temperature measurement by commercial room temperature sensors: Effects of room cooling system, loads, sensor type and position

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