Assessment of evaporative cooling efficiency in greenhouses equiped with wetted porous plates

Damasceno, Flávio Alves; Mendes, Luciano Barreto; Yanagi, Tadayuki; Oliveira, Jofran Luiz de; Saráz, Jairo Alexander Osorio

doi:10.15446/dyna.v84n203.59564

Cited by 3 publications

(3 citation statements)

References 16 publications

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“…Likewise, the air velocity through the pads was seen to change at various points. According to Flávio et al (2017) and Al-Amri (2000), air velocity impacts the path that air takes and the amount of time it spends in touch with the moisture source. In evaporative cooling pads, the latent heat absorbed by the water as it changes from liquid to vapor is taken from both the air passing through the media and the water left in the media.…”

Section: Evaporative Cooling Pad Typesmentioning

confidence: 99%

Effect of Utilization of Different Materials and Thicknesses Evaporative Cooling Pad On Cooling Efficiency in Greenhouses in Hot-Arid Regions

Elmsaad,

Emam,

Omran

2023

Egypt. J. Agron.

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Egyptian Journal of Agronomy http://agro.journals.ekb.eg/ 12T HE GOAL of this study was to determine whether locally accessible luffa, straw, and sackcloth fiber pads could replace traditional celdek pads in cooling systems, particularly in greenhouses. The study's goals were to find out how different evaporative pad types and thicknesses, as well as climatic elements, including temperature, pressure drop, relative humidity, and air velocity, affected the greenhouse's ability to cool effectively. The outcomes showed considerable effects of various pad materials on greenhouse cooling effectiveness. The average saturation from the luffa pads was 78.5%, while the average saturation from the straw fiber and sackcloth fiber was 72% and 66.6%, respectively. On the contrary, the celdek pads produced an average saturation of 75.60%. The 300 mm thick pad had a highly significant impact on cooling efficiency, lowering the temperature and slightly raising the relative humidity while also absorbing more water and lowering the pressure. The outcomes also showed that the amount of water had a big impact on cooling effectiveness. Moreover, there was a strong correlation between air velocity, cooling effectiveness, and pressure; as air velocity rose, cooling efficiency declined and pressure increased across the cooling pads. The current study established a negative correlation between temperature and cooling effectiveness. Lastly, the study proved that the luffa pads are a better alternative to the conventional celdek pad as they produced the best results than the other cooling pads.

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Section: Evaporative Cooling Pad Typesmentioning

confidence: 99%

Effect of Utilization of Different Materials and Thicknesses Evaporative Cooling Pad On Cooling Efficiency in Greenhouses in Hot-Arid Regions

Elmsaad,

Emam,

Omran

2023

Egypt. J. Agron.

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“…High air temperatures of more than 25-30 °C tend to increase stem length and branching but reduce leaf size and leaf area. An increase in air temperature of greater than 20 °C can hurt crop production in greenhouses for countries located in tropical and subtropical countries (Alves-Damasceno et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of the Coolnet Placement Distance to Direct Evaporative Cooling to Increase Potato Seed Production in Aeroponic Systems with Root Zone Cooling in the Lowlands

Sumarni

Priswanto

Irayani

et al. 2023

JTEP-L

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Evaluation of the placement of the coolnet distance on direct evaporative cooling is needed in order to reduce the wilting percentage and improve seed production of potatoes. The aim of the study was to obtain the appropriate coolnet distance for the growth and development of aeroponic potato seedlings in evaporative cooling and root zone cooling applications in the tropical lowlands. The factors tested were: 1) Evaporative cooling (JEvap) distance: JEvap1 (25 cm from the top zone of the plant), JEvap2 (50 cm from the top zone), and Jevap3 (60 cm), and 2) Varieties (V): V1 (MZ), V2 (Granola K), V3 (Granola L). The design used was completely randomized design with 2 replications. Growth data and results were analyzed by the F test and continued with Duncan's Multiple Range Test (DMRT) at 5% level. The results showed that the direct evaporative cooling method and the coolnet spacing of 50-60 cm which were integrated with root zone cooling created an air temperature at the top of the plant 26-28 °C, reduced the percentage of burnt wilting, and increased the number of tubers by an average of 31.4 to 41.7 tubers/plant. Keywords: Aeroponic, cooling system, growth environment, hidroponic, limited control.

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“…However, this effect is null when the temperature of the dry bulb is equal to the body temperature of the bird, and there is a need to use evaporative cooling methods. The use of these systems allows the reduction of the temperature of the dry bulb up to 11°C in some regions, particularly in Brazil, the average of this reduction is 6°C [12][13][14]. The evaporative cooling systems have been used in thermal environmental control applications to improve human, plant and animals comfort conditions [15].…”

Section: Introductionmentioning

confidence: 99%

Comfort and energy consumption in a hybrid tunnel-type broiler barn in different bioclimatic zones of Brazil

Hernandez

Guerra-García

Folgôa-Baptist

2019

DYNA

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Poultry production is influenced directly by its environmental conditions and, therefore, the conditions of comfort, animal welfare, and energy consumption of the facilities. The objective of this study was to carry out an assessment of the climatization needs of a negative pressure ventilated broiler barn in 12 Brazilian cities, located in the 8 bioclimatic zones of the country. It was found that, cities located in bioclimatic zones 1 and 2 require a higher energy consumption for heating during the chicks phase (0-21 days), while zones 7 and 8 require more energy for cooling during the chickens phase (22-42days). The cities located in zones 3, 4, 5 and 6 present the best comfort conditions and the greatest energy savings for the two phases.

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Assessment of evaporative cooling efficiency in greenhouses equiped with wetted porous plates

Cited by 3 publications

References 16 publications

Effect of Utilization of Different Materials and Thicknesses Evaporative Cooling Pad On Cooling Efficiency in Greenhouses in Hot-Arid Regions

Effect of Utilization of Different Materials and Thicknesses Evaporative Cooling Pad On Cooling Efficiency in Greenhouses in Hot-Arid Regions

Evaluation of the Coolnet Placement Distance to Direct Evaporative Cooling to Increase Potato Seed Production in Aeroponic Systems with Root Zone Cooling in the Lowlands

Comfort and energy consumption in a hybrid tunnel-type broiler barn in different bioclimatic zones of Brazil

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