SMART HOME ENERGY MANAGEMENT: INTEGRATING AUTOMATIC TRANSFER SWITCHES FOR GRID AND SOLAR PANEL EFFICIENCY
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Smart home energy management, automatic transfer switch, grid integration, solar panels, energy efficiency, IoT, sustainability, real-time monitoring.Abstrak
This study explores the integration of automatic transfer switches (ATS) with grid and solar panel systems to enhance energy efficiency in smart homes. By leveraging ATS technology, homes can seamlessly switch between grid and solar power, optimizing energy use and reducing costs. The research involves a detailed examination of ATS technical specifications, the integration process, and real-time energy monitoring using IoT devices. Data collected from case studies indicate significant improvements in energy efficiency, with a 20% reduction in energy costs and decreased reliance on grid power. The findings highlight the substantial benefits of ATS in smart home energy management, contributing to both economic and environmental sustainability. However, challenges such as initial installation costs and technical constraints are noted. Future research should focus on addressing these limitations and exploring advanced predictive energy management technologies.
Iqtiboslar
Saputro, J.S., Maghfiroh, H., Adriyanto, F., Darmawan, M.R., Ibrahim, M.H. and Pramono, S., 2023. Energy Monitoring and control of automatic transfer switch between grid and solar panel for home system. International Journal of Robotics and Control Systems, 3(1), pp.59-73.
Raza, A., Jingzhao, L., Ghadi, Y., Adnan, M. and Ali, M., 2024. Smart home energy management systems: Research challenges and survey. Alexandria Engineering Journal, 92, pp.117-170.
Chakraborty, A., Islam, M., Shahriyar, F., Islam, S., Zaman, H.U. and Hasan, M., 2023. Smart home system: a comprehensive review. Journal of Electrical and Computer Engineering, 2023.
Z. Zokhidov, “STUDIES AND ANALYSIS OF A SOLAR-POWERED PESTICIDE SPRAYER”, ERUS, vol. 2, no. 16 SPECIAL, pp. 353–358, Dec. 2023
Uzbekov, M., Boynazarov, B., Nasretdinova, F., Zoxidov, I., Ashurov, A., & Hamidjonov, Z. (2024, November). Energy saving using solar air heater collectors. In E3S Web of Conferences (Vol. 508, p. 02001). EDP Sciences
Sukadana, I.W., Giriantari, I.A.D., Ariastina, W.G., Swamardika, I.B.A. and Abiyasa, A.P., 2023, November. System Design of Microcontroller Based Smart Automatic Transfer Switch of Solar Panel Control. In 2023 International Conference on Smart-Green Technology in Electrical and Information Systems (ICSGTEIS) (pp. 218-223). IEEE.
Iksan, N., Purwanto, P. and Sutanto, H., 2024. Real-Time Monitoring of Photovoltaic Systems and Control of Electricity Supply for Smart Micro Grid-PV using IoT.
Kurbanov, J.F., Roenkov, D.N. and Yaronova, N.V., 2023, November. Diagnostic and Control System for Increasing the Efficiency of Solar Panel Based on Microprocessor Elements. In 2023 Seminar on Electrical Engineering, Automation & Control Systems, Theory and Practical Applications (EEACS) (pp. 186-189). IEEE.
Ibragimova, K. and Yuldashev, D., 2023. MACHINE LEARNING BASED CONTROL FOR SUSTAINABLE ENERGY MANAGEMENT. Innovations in Technology and Science Education, 2(17), pp.455-465.
Padmanaban, S., Nasab, M.A., Shiri, M.E., Javadi, H.H.S., Nasab, M.A., Zand, M. and Samavat, T., 2023. The role of internet of things in smart homes. Artificial Intelligence‐based Smart Power Systems, pp.259-271.
Saleem, M.U., Shakir, M., Usman, M.R., Bajwa, M.H.T., Shabbir, N., Shams Ghahfarokhi, P. and Daniel, K., 2023. Integrating smart energy management system with internet of things and cloud computing for efficient demand side management in smart grids. Energies, 16(12), p.4835.
Zokhidov Iqboljon Zokirjonovich, Tuxtashev Alisher Akmaljon ugli, and Eshquziev Khurshidjon Musajonovich, “COMPENSATION OF REACTIVE POWER THROUGH AUTOMATIC CONTROL OF CAPACITOR BATTERIES IN TEXTILE ENTERPRISES”, American Journals, vol. 12, pp. 43–48, May 2023.
Uzbekov, M., Boynazarov, B., Nasretdinova, F., Zoxidov, I., Ashurov, A., & Hamidjonov, Z. (2024, November). Energy saving using solar air heater collectors. In E3S Web of Conferences (Vol. 508, p. 02001). EDP Sciences.
Uzbekov, M., Boynazarov, B., Nasretdinova, F., Zoxidov, I., Qodirov, A., & Hamidjonov, Z. (2024, November). Development and experimental research of solar air collector. In E3S Web of Conferences (Vol. 508, p. 02005). EDP Sciences.
Zokirjonovich, Z. I. (2022). MOYLI KUCH TRANSFORMATORLARNI KOMPLEKS DIAGNOSTIKA ZARURATI. Ta’lim fidoyilari, (Special issue), 242-244.
Z. Zokhidov, “STUDIES AND ANALYSIS OF A SOLAR-POWERED PESTICIDE SPRAYER”, ERUS, vol. 2, no. 16 SPECIAL, pp. 353–358, Dec. 2023.
Musayeva, S. I. (2023). PRINCIPLES OF DEVELOPMENT OF CADETS'INTERCULTURAL COMMUNICATION COMPETENCE THROUGH ENGLISH LANGUAGE TEACHING. PEDAGOGICAL SCIENCES AND TEACHING METHODS, 2(22), 46-50.
Ibrohimovna, M. S. (2019). TECHNIQUES OF IMPROVING SPEAKING IN ESP CLASSES FOR MILITARY. CONDUCT OF MODERN SCIENCE-2019, 139.
Ne’matjonov Hikmatilla Sherzodjon o‘g‘li, Zoxidov Iqboljon Zokirjonovich, and Eshquziev Khurshidjon Musajonovich, “USING DEVICES TO ELIMINATE UNSYMMETRY IN ELECTRICAL NETWORKS AND ACHIEVE ENERGY SAVING”, Euro. Sch. J., vol. 4, no. 12, pp. 39-42, Dec. 2023.
