The Use of a Heat Pump in a Ventilation Unit as an Economical and Ecological Source of Heat for the Ventilation System of an Indoor Swimming Pool Facility

Ratajczak, Katarzyna; Szczechowiak, Edward

doi:10.3390/en13246695

Cited by 10 publications

(6 citation statements)

References 30 publications

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“…The calculations were carried out as described in Section 2.2 and took into account a variable ventilation air stream, as opposed to the standard procedures used to calculate the energy performance of a building [58][59][60]. Only those hours of the year were taken into account when the ground temperature was at least 2 K higher than the outside air temperature in winter, and only those summer hours when the outside air temperature was higher than 20 • C. These restrictions were introduced to make the calculated results more realistic, thus taking into account the fact that earth-to-air heat exchangers do not operate all year round.…”

Section: Full-year Heating and Cooling Gains And Energy Cost Of Harve...mentioning

confidence: 99%

Comparison of Single- and Multipipe Earth-to-Air Heat Exchangers in Terms of Energy Gains and Electricity Consumption: A Case Study for the Temperate Climate of Central Europe

Amanowicz

Wojtkowiak

2021

Energies

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Earth-to-air heat exchangers (EAHEs) can be used in the ventilation systems of various types of buildings. Multipipe structures can be found in large-volume buildings, yet scientific analysis of such systems is rare. Annual energy gains and electricity consumption for equivalent single-pipe and multipipe systems are typically not available. This paper bridges this gap, presenting the results of experimental studies on pressure losses in three-, five- and seven-pipe EAHEs and analysis for the annual energy gains and electric energy consumption as compared to a single-pipe exchanger. The results showed that the multipipe EAHE can be successfully replaced by a single-pipe structure with the same thermal performance and similar pressure losses if a tube with the appropriate diameter is used. However, multipipe heat exchangers can also use pipes of larger diameter (manifolds and/or branches), which improves their energy efficiency and may then make them more advantageous than single-pipe structures. From this reason, ultimately, the final selection of exchanger geometry should take into account economic and environmental issues and also user preferences and their importance in the hierarchy.

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Section: Full-year Heating and Cooling Gains And Energy Cost Of Harve...mentioning

confidence: 99%

Comparison of Single- and Multipipe Earth-to-Air Heat Exchangers in Terms of Energy Gains and Electricity Consumption: A Case Study for the Temperate Climate of Central Europe

Amanowicz

Wojtkowiak

2021

Energies

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“…The swimming facility at Jøa is a state-of-the-art swimming facility which complies with the Norwegian passive house standard [22]. It includes a ventilation heat recovery system equipped with a heat pump, as recommended in the literature [5,43], and conventional water treatment, which research has found to be the most effective water treatment train [44].…”

Section: The Technical Systemsmentioning

confidence: 99%

“…Within the "renovation wave", the European Commission recommends paying particular attention to energy-reducing refurbishment in types of buildings that support education and public health, such as schools and hospitals [2]. In swimming facilities, which support education and public health, the potential for energy reduction is considerable [4] and the literature associates these facilities with high specific energy use [5] and a large dispersion in energy use. The specific energy use ranges from 400 kWh/(m 2 •a) to almost 1600 kWh/(m 2 •a) [6][7][8][9].…”

Section: Introduction 1backgroundmentioning

confidence: 99%

The Implementation of Multiple Linear Regression for Swimming Pool Facilities: Case Study at Jøa, Norway

et al. 2021

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This paper presents a statistical model for predicting the time-averaged total power consumption of an indoor swimming facility. The model can be a powerful tool for continuous supervision of the facility’s energy performance that can quickly disclose possible operational disruptions/irregularities and thus minimize annual energy use. Multiple linear regression analysis is used to analyze data collected in a swimming facility in Norway. The resolution of the original training dataset was in 1 min time steps and during the investigation was transposed both by time-averaging the data, and by treating part of the dataset exclusively. The statistically significant independent variables were found to be the outdoor dry-bulb temperature and the relative pool usage factor. The model accurately predicted the power consumption in the validation process, and also succeeded in disclosing all the critical operational disruptions in the validation dataset correctly. The model can therefore be applied as a dynamic energy benchmark for fault detection in swimming facilities. The final energy prediction model is relatively simple and can be deployed either in a spreadsheet or in the building automation reporting system, thus the method can contribute instantly to keep the operation of any swimming facility within the optimal individual energy performance range.

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“…The need to reduce energy consumption contributes to the development of energyefficient and near-zero-energy buildings. Consequently, the overarching goal of HVAC systems is to provide the lowest possible energy consumption [1,2] for maintaining thermal comfort in a building [3]. Thermally activated ceilings can achieve high energy efficiency by reducing transmission losses and supply temperature during cooling.…”

Section: Introductionmentioning

confidence: 99%

An Experimental Study of a Thermally Activated Ceiling Containing Phase Change Material for Different Cooling Load Profiles

Sinacka

Szczechowiak

2021

Energies

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Increasing peak power demand implies the increasing significance of energy storage. Technologies that efficiently store heat and cold are also important for increasing the share of renewables and improving the efficiency of heating, ventilation, and air conditioning (HVAC) systems. The present experimental study investigated the dynamic behavior of a room with suspended thermally activated ceiling panels filled with a material containing 60% paraffin. The purpose of the study was to determine the specific cooling power and the total energy supplied to the phase change material (PCM) during regeneration. Convective heat flux density, radiant heat flux density, and the heat transfer coefficient (convective, radiant) at the ceiling surface were calculated. Analysis shows that shifting system activation to use lower temperatures during the night maintains thermal comfort.

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The Use of a Heat Pump in a Ventilation Unit as an Economical and Ecological Source of Heat for the Ventilation System of an Indoor Swimming Pool Facility

Cited by 10 publications

References 30 publications

Comparison of Single- and Multipipe Earth-to-Air Heat Exchangers in Terms of Energy Gains and Electricity Consumption: A Case Study for the Temperate Climate of Central Europe

Comparison of Single- and Multipipe Earth-to-Air Heat Exchangers in Terms of Energy Gains and Electricity Consumption: A Case Study for the Temperate Climate of Central Europe

The Implementation of Multiple Linear Regression for Swimming Pool Facilities: Case Study at Jøa, Norway

An Experimental Study of a Thermally Activated Ceiling Containing Phase Change Material for Different Cooling Load Profiles

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