Subhi M. Bazlamit scite author profile

Several techniques for cooling mass concrete structures were developed in order to increase structural integrity and reduce the influence of cement hydration, which sometimes causes cracking in concrete structures, negatively affecting their durability. This research focuses on cooling system design, initial investment, and the influence of different refrigerants on cooling system performance aims in producing higher quality massive concrete. Cooling aggregates in massive concrete structures such as desert dams can be performed by employing cooled air from an air conditioning duct system or chilled water. The experimental study illustrates the relationship between the coefficient of performance COP, the evaporator temperature, cooling capacity, and refrigerant mass flow rate as a function of the evaporator temperature, cooling capacity, and refrigerant mass flow rate. The findings of the experiments were utilized to verify a numerical model developed utilizing engineering equation solver (EES) software. The performance of the vapor compression of the cooling systems was compared using alternative refrigerants, including R22, R32, and R410a at different operating conditions. This study revealed that R22 refrigerant has a higher coefficient of performance than R32 and R410A, while R32 has the highest cooling capacity among other refrigerants.

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Subhi M. Bazlamit

Changes in Asphalt Pavement Friction Components and Adjustment of Skid Number for Temperature

Practices of Sustainable Development in Higher Education Institutions: Case Study of Al-Zaytoonah University of Jordan

Pavement Maintenance Applications Using Geographic Information Systems

Assessment of the Effect of Alligator Cracking on Pavement Condition Using WSN-Image Processing

Pre-Cooling Concrete System in Massive Concrete Production: Energy Analysis and Refrigerant Replacement

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