Your search keyword '"Congedo, P M"' showing total 2 results

1. Dynamic Analysis of the Natural and Mechanical Ventilation of a Solar Greenhouse by Coupling Controlled Mechanical Ventilation (CMV) with an Earth-to-Air Heat Exchanger (EAHX)

Author

Domenico Mazzeo, Giuseppe Antonio Oliveti, Paolo Maria Congedo, Sara Bonuso, Cristina Baglivo, Simone Panico, Nicoletta Matera, Bonuso, S., Panico, S., Baglivo, C., Mazzeo, D., Matera, N., Congedo, P. M., and Oliveti, G.

Subjects

Control and Optimization, Convective heat transfer, 020209 energy, geothermal source, Airflow, Energy Engineering and Power Technology, Greenhouse, 02 engineering and technology, 010501 environmental sciences, TRNSYS, Atmospheric sciences, 01 natural sciences, lcsh:Technology, law.invention, TRNsys, law, Heat exchanger, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), 0105 earth and related environmental sciences, Geothermal source, Energy, Solar greenhouse, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, ventilation, Building and Construction, Ventilation, Air conditioning, Ventilation (architecture), Environmental science, solar greenhouse, TRNsy, business, Energy (miscellaneous), energy

Abstract

Greenhouse crops represent a significant productive sector of the agricultural system, one of the main problems to be addressed is indoor air conditioning to ensure thermal well-being of crops. This study focuses on the ventilation analysis of solar greenhouse with symmetrical flat pitched roof and single span located in a warm temperate climate. This work proposes the dynamic analysis of the greenhouse modeled in TRNsys, simultaneously considering different thermal phenomena three-dimensional (3D) shortwave and longwave radiative exchange, airflow exchanges, presence of lamps with their exact 3D position, ground and plant evapotranspiration, and convective heat transfer coefficients. Several air conditioning systems were analyzed, automatic window opening, controlled mechanical ventilation systems (CMV) and horizontal Earth-to-Air Heat Exchanger (EAHX) coupled with CMV, for different air volume changes per hour. In summer, the exploitation of the ground allows having excellent results with the EAHX system, reducing the temperature peaks of up to 5 &deg, C compared to the use of CMV. In winter, it is interesting to note that, although the EAHX is not the solution that raises the temperature the most during the day, its use allows flattening the thermal wave more. In fact, the trend is almost constant during the day, raising the temperature during the first and last hours of the day.

Published

2020

2. A New Device Hypothesis for Water Extraction from Air and Basic Air Condition System in Developing Countries

Author

Cristina Baglivo, Paolo Maria Congedo, Giulia Negro, Congedo, P. M., Baglivo, C., and Negro, G.

Subjects

Technology, Control and Optimization, Geothermal, Passive cooling, Airflow, torrid climate, 0211 other engineering and technologies, Storage, Energy Engineering and Power Technology, Peltier cell, geothermal, water generation, passive cooling, earth-to-air heat exchanger, unconventional air handling units, condensate water, storage, developing countries, 02 engineering and technology, 010501 environmental sciences, Water generation, 01 natural sciences, Turbine, Unconventional air handling unit, Air treatment, Heat exchanger, Thermal, Developing countrie, 021108 energy, Electrical and Electronic Engineering, Engineering (miscellaneous), 0105 earth and related environmental sciences, Petroleum engineering, Renewable Energy, Sustainability and the Environment, business.industry, Earth‐to‐air heat exchanger, Torrid climate, Condensate water, Air conditioning, Environmental science, business, Water vapor, Energy (miscellaneous)

Abstract

This work proposes a new device for air treatment with dehumidification and water recovery/storage, with possible mitigation of indoor environmental conditions. The system is based on Peltier cells coupled with a horizontal earth-to-air heat exchanger, it is proposed as an easy-to-implement alternative to the heat pumps and air handling units currently used on the market, in terms of cost, ease of installation, and maintenance. The process provides the water collection from the cooling of warm-humid air through a process that leads to condensation and water vapor separation. The airflow generated by a fan splits into two dual flows that lap the two surfaces of the Peltier cells, one flow laps the cold surfaces undergoing sensible, latent cooling with dehumidification; the other flow laps the hot surfaces and heats up. The airflow undergoes thermal pre-treatment through the underground horizontal geothermal pipe that precedes the Peltier cells. In the water storage tank, which also works as a mixing chamber, the two air streams are mixed to regulate the outlet temperature. The system can be stand-alone if equipped with a photovoltaic panel and a micro wind turbine, able to be used in places where electricity is absent. The system, with different configurations, is modeled in the African city Kigali, in Rwanda.

Published

2021