Manuel Intini scite author profile

Air to air heat exchangers play a crucial role in mechanical ventilation equipment, due to the potential primary energy savings both in case of refurbishment of existing buildings or in case of new ones. In particular, interest in heat wheels is increasing due to their low pressure drop and high effectiveness. In this paper a detailed optimization of design parameters of heat wheels is performed in order to maximize sensible effectiveness and to minimize pressure drop. The analysis is carried out through a one dimensional lumped parameters heat wheel model, which solves heat and mass transfer equations, and through appropriate correlations to estimate pressure drop. Simulation results have been compared with experimental data of a heat wheel tested in specific facilities, and good agreement is attained. The device optimization is performed through the variation of main design parameters, such as heat wheel length, channel base, height and thickness and for different operating conditions, namely the air face velocity and the revolution speed. It is shown that the best configurations are achieved with small channel thickness and, depending on the required sensible effectiveness, with appropriate values of wheel length and channel base and height. OPEN ACCESSEnergies 2014, 7 7349

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Experimental analysis and numerical modelling of an AQSOA zeolite desiccant wheel

Intini

Goldsworthy

White

et al. 2015

Applied Thermal Engineering

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Experimental analysis and practical effectiveness correlations of enthalpy wheels

Antonellis

Intini

Joppolo

et al. 2014

Energy and Buildings

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The Effect of Inlet Velocity and Unbalanced Flows on Optimal Working Conditions of Silica Gel Desiccant Wheels

2014

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A tri-generation system based on polymer electrolyte fuel cell and desiccant wheel – Part A: Fuel cell system modelling and partial load analysis

Najafi

Antonellis

Intini

et al. 2015

Energy Conversion and Management

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On the control of desiccant wheels in low temperature drying processes

Antonellis

Intini

Joppolo

et al. 2016

International Journal of Refrigeration

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Manuel Intini

Desiccant wheels effectiveness parameters: Correlations based on experimental data

Desiccant wheels for air humidification: An experimental and numerical analysis

Design Optimization of Heat Wheels for Energy Recovery in HVAC Systems

Experimental analysis and numerical modelling of an AQSOA zeolite desiccant wheel

Experimental analysis and practical effectiveness correlations of enthalpy wheels

The Effect of Inlet Velocity and Unbalanced Flows on Optimal Working Conditions of Silica Gel Desiccant Wheels

A tri-generation system based on polymer electrolyte fuel cell and desiccant wheel – Part A: Fuel cell system modelling and partial load analysis

On the control of desiccant wheels in low temperature drying processes

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