Evaporative Cooling Pad Systems in Greenhouses and Coops
The aim was to determine the cooling capacity and water consumption amounts of commercial pads (celdekped) in the ventilation and cooling of greenhouses. In the greenhouse ventilation cooling study, it was determined that natural ventilation and natural ventilation + shading net applications were insufficient in reducing the indoor temperature values and the necessity of evaporative pad cooling systems was demonstrated. Then, celdekped, grated sawdust, straw and combinations of these materials with shading net were used as cooling materials in order to increase the system efficiency. According to the results obtained,
The highest cooling efficiency of evaporative celdekpad was 56.722%, while this rate increased to 67.45% when used with shading net. The highest cooling efficiency of straw application was 29.96%, while this rate reached 32.77% when used with straw + shading net. The highest cooling efficiency of grater sawdust application was 41.08%, while this rate reached 44.44% when used with grater sawdust + shading net. In conclusion: As a result of the study, it was determined that commercially produced evaporative celdekpads provided more positive results in reducing indoor temperatures. It was determined that the reason for the decrease in the success rate with local materials was due to the dry air taken from the outside environment not being able to conduct sufficient amount of air through the cooling evaporative pads, and as a result, the cooling efficiency of local materials decreased. Significance and Impact of the Study: In our country, one of the world's major greenhouse centers, reducing high summer temperatures and increasing low relative humidity values are crucial for economic production. Cooling greenhouses (ventilation) will reduce yield losses due to rising temperatures, increase producer income, and enhance our competitiveness in global greenhouse farming. This will lead to greater profits.
How can you tell the quality of Sistemtav Sysped Evaporative Cooling Pad?‘
The degree of cooling achieved is directly related to the flute angle. While the flute angle determines the amount of water flowing to the outer surface of the evaporative pad, it also directly affects the static pressure of the passing air.
The sections of the evaporative cooler pads play a role in the effect of static pressure and affect the performance of the fans.
Necessary studies must have been carried out regarding the flexibility of the surface edges.
A Cooling Pad is only as good as the paper it is made from. Proper testing must be performed when sourcing raw materials.
How strong are the adhesive bonds on the Evaporative Cooling Pad? The end user should definitely request test results.
Evaporative pad papers have a high water absorption capacity, but they are treated with an odorless chemical to prevent them from breaking down and to ensure they achieve high moisturizing properties, airflow, efficiency, and maximum durability. This ensures a high absorption capacity despite the strong and rigid structure of the cells.
Evaporative pad papers are specially designed with the shape and grooves of the formed flutes to provide high air saturation, high efficiency and low pressure drop in various applications and conditions.
Sysped EVAPORATİF PED müşterinin istekleri doğrultusunda çeşitli yükseklikte, oluk ve açı ölçülerinde tedariğinde destek verir
SYSPED evaporative pad papers, beehive-shaped design ensures uniform air distribution throughout the cooling area.