<abstract xmlns="http://www.w3.org/1999/xhtml"><p> Optimum design for storage type Electric Water Heaters (EWHs) was analyzed for energy conservation and maximum hot water output. Single and dual tank EWHs were compared with each other. For each comparison, data were gathered for tank volumes and power ratings ranging 100-400land 1-4 k Wrespectively. Different dual tank EWHs were designed with different control mechanisms to find which one had the optimum outcome. For these comparisons, dual tank EWHs in which the upper part of the tanks had 25%of the total volume and 75%of the total power rating were used. Afive day usage period of an EWHinatypical household was simulated on SIMULINK. To minimize this energy loss, transient analysis on FLUENTwas performed to see how long it took for the outlet water temperature. In these simulations, single and dual tank EWHs with different control mechanisms were compared with each other to find the design with minimum energy consumption and maximum hot water output. From these results the most efficient control system cost analysis was determined for minimum operating cost and minimum carbon footprint through optimized control strategies.</p></abstract>

Optimum design for storage type Electric Water Heaters (EWHs) was analyzed for energy conservation and maximum hot water output. Single and dual tank EWHs were compared with each other. For each comparison, data were gathered for tank volumes and power ratings ranging 100-400land 1-4 k Wrespectively. Different dual tank EWHs were designed with different control mechanisms to find which one had the optimum outcome. For these comparisons, dual tank EWHs in which the upper part of the tanks had 25%of the total volume and 75%of the total power rating were used. Afive day usage period of an EWHinatypical household was simulated on SIMULINK. To minimize this energy loss, transient analysis on FLUENTwas performed to see how long it took for the outlet water temperature. In these simulations, single and dual tank EWHs with different control mechanisms were compared with each other to find the design with minimum energy consumption and maximum hot water output. From these results the most efficient control system cost analysis was determined for minimum operating cost and minimum carbon footprint through optimized control strategies.

Development of Control Strategies and Implementation to Electrical Water Heaters for Energy Conservation

Marmara University, Faculty of Technology, 34722 Marmara,

Marmara University, Faculty of Engineering, 34722 Marmara,

Cybernetics and Information Technologies

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Optimum design for storage type Electric Water Heaters (EWHs) was analyzed for energy conservation and maximum hot water output. Single and dual tank EWHs were...

Development of Control Strategies and Implementation to Electrical Water Heaters for Energy Conservation

Publié en ligne: 22 déc. 2016

Pages: 98 - 112

DOI: https://doi.org/10.1515/cait-2016-0071

Mots clés
Control, energy efficiency, optimization, steady-state heat transfer, water heaters

© by Ahmet Feyzioglu

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Development of Control Strategies and Implementation to Electrical Water Heaters for Energy Conservation

Publié en ligne: 22 déc. 2016

Pages: 98 - 112

DOI: https://doi.org/10.1515/cait-2016-0071

Mots clésControl, energy efficiency, optimization, steady-state heat transfer, water heaters

© by Ahmet Feyzioglu

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Mots clés
Control, energy efficiency, optimization, steady-state heat transfer, water heaters