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    Air flow control valve development with reinforced operating parameters
    (World Scientific, 2021) Ozbakis, Y.; Erzincanli, F.
    Recent research has shown that particles in the air and harmful gases in the environment increase the risk of various respiratory diseases and mortality rates. For effective ventilation, particles and harmful gases in the environment must be captured before they are released into the environment. Air flow control valves (AFCVs) play an active role in the capture of particles and harmful gases in the environment with central ventilation system. In the study, an innovative AFCV, which is the most critical part of central ventilation systems, has been developed. Performance criteria in the innovative AFCV design have been the capture rate, the flow rate and turbulence intensity. In this study, six valves are designed as an alternative to the current valve. The designed valves were mounted on the central ventilation system hood and numerical analysis was performed. ANSYS Fluent software was used for the analysis. The best and worst valves were determined as a result of numerical analysis. Prototypes of the determined valves were created and experimental verification tests were carried out. Again, numerical analyses simulating the experimental tests were performed with these two valves. The experimental test results and numerical analysis results were compared. As a result, due to the innovative AFCV design, the air flow and the capture speed have been increased and the turbulence intensity has been reduced. © 2021 World Scientific Publishing Company.
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    Design and production optimization of pp 20% talc additive filter with plastic injection molding machine
    (World Scientific, 2021) Ozbakis, Y.; Nas, E.
    In the paper, the design optimization of the food-contact water tank filter used in industrial kitchen products was made and produced in plastic injection molding machine with different parameters. The effects of production parameters on product weight, fabric filter strength (tearing), production time and surface quality (burrs and gas gap) were investigated experimentally and statistically. The design of the experiments was prepared with the Taguchi L27 orthogonal array. Experiment parameters are determined as injection speed (A), holding press (B), holding speed (C), mold temperature (D), melting temperature (E) and compression waiting time (F). As a result, 154% improvement was achieved in the fabric strength as a result of design optimization. As a result of the optimization of the injection parameters of the product, when the response tables were examined, it is determined that the greatest value of filter fabric strength is 298N in A2B2C2D1E1F3 parameters. When ANOVA results are analyzed, the most effective parameter for fabric strength and surface quality was determined as mold temperature with 36.38% and compression waiting time with the lowest effective parameter as 0.08%. © 2021 World Scientific Publishing Company.