Heating/Cooling Fresh Air Using Hot/Cold Exhaust Air of Heating, Ventilating, and Air Conditioning Systems

Khaled, Mahmoud; Ali, Samer; Jaber, Hassan; Faraj, Jalal; Murr, Rabih; Lemenand, Thierry

doi:10.3390/en15051877

Cited by 6 publications

(1 citation statement)

References 26 publications

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“…In contrast, the current project involves cooling of fresh air by cool indoor air. Khaled et al [4] established a prototype to study the effects of precooling of fresh intake air during hot summer and preheating of fresh intake air during summer. Based on experiments, it was inferred that the capital cost of the equipment with precooling could be recovered in 1.5 years, if the equipment was operated nonstop during hot summer.…”

Section: Introductionmentioning

confidence: 99%

Economize air conditioning system by pre-cooling fresh intake air

Ahmed,

G J

et al. 2023

E3S Web Conf.

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As the demand for electricity continues to increase, a significant amount of fossil fuels are being burned to meet our needs. One of the major contributors to high electricity consumption, accounting for almost 20% of total generated electricity, is the air conditioning system and cooling systems. Given its significant impact on the environment, it is essential to improve its efficiency and to reduce its energy consumption. The project is focused on enhancing the efficiency of air conditioning system while minimising its energy consumption. An air conditioning system typically utilizes recirculated air along with some amount of fresh air. While humans require a certain quantity of fresh air for proper functioning, the required amount varies based on the air conditioned space. In India, as the ambient conditions are usually warmer, mixing of outdoor air with recirculated air leads to additional cooling and higher energy consumption. To reduce excessive energy consumption, it will be beneficial to reduce the ambient air temperature prior to mixing process. Precooling intake air using a plate heat exchanger is considered in this project work. The overall reduction in energy consumption by pre-cooling fresh air is 13%.

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Section: Introductionmentioning

confidence: 99%

Economize air conditioning system by pre-cooling fresh intake air

Ahmed,

G J

et al. 2023

E3S Web Conf.

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Pioneering hybrid heat recovery systems: Thermoelectric generators as insulators and channels boosted by vortex generators

Aridi,

Ali,

Lemenand

et al. 2024

International Journal of Thermofluids

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Morphing optimization of flow and heat transfer in concentric tube heat exchangers

Ali,

Dbouk,

Khaled

et al. 2023

Physics of Fluids

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Concentric tube heat exchangers are vital in various industrial applications, including chemical, process, energy, mechanical, and aeronautical engineering. Advancements in heat transfer efficiency present a significant challenge in contemporary research and development. This study concerns optimizing flow and heat transfer in concentric tube heat exchangers by morphing the tube's walls. The adjoint shape optimization approach is implemented in a fully turbulent flow regime. The effect of inner tube deformation on flow physics and heat transfer is examined. The results show that morphing can lead to a 54% increase in the heat transfer rate and a 47% improvement in the overall heat transfer coefficient compared to straight concentric tube designs. Moreover, the thermal-hydraulic performance factor is calculated to account for the relative increase in heat transfer when the optimal and initial designs are operated under the same pumping power. A thermal-hydraulic performance factor of 1.2 is obtained for the new design, showing that the heat transfer enhancement caused by morphing the tube's walls outweighs the increase in pumping power. The physics of a radial flow, resulting from an adverse pressure gradient in an annular region caused by the successive inner tube deformation, significantly augments heat transfer. This study shows morphing can lead to higher thermal efficiencies, and numerical optimization can assist in achieving this goal.

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Heating/Cooling Fresh Air Using Hot/Cold Exhaust Air of Heating, Ventilating, and Air Conditioning Systems

Cited by 6 publications

References 26 publications

Economize air conditioning system by pre-cooling fresh intake air

Economize air conditioning system by pre-cooling fresh intake air

Pioneering hybrid heat recovery systems: Thermoelectric generators as insulators and channels boosted by vortex generators

Morphing optimization of flow and heat transfer in concentric tube heat exchangers

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