The increasing global population has significantly elevated the demand for electrical power. As conventional energy resources are finite, the need for alternative and sustainable energy solutions becomes more pressing. This study explores the potential of harnessing HVAC exhaust airflow for small-scale renewable energy generation. Experimental results show an average airflow velocity of 6.14 m/s producing a stable 217 V AC output under a 50 W load. However, the system’s power output remains modest and highly dependent on air conditioner operation cycles, which limits scalability and consistent energy supply. These findings highlight the practicality of energy recovery from existing HVAC systems, although improvements in turbine design, duct geometry, and energy storage are necessary to enhance efficiency and real-world integration.

Nik Zamakhshari, N. H., Uddin, S. M., & Bakar, M. I. A. (2022). Development of wind mini generator by using air conditioner air waste. Journal of Engineering Technology, 10(1), 62–69.

Munira Ismail, A. M., Mohd Ali, Z., Md Isa, K., Abdullah, M., & Zawawi, F. M. (2024). Study on the potentiality of power generation from exhaust air energy recovery wind turbine: a review. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 87(3), 148–171.

Nimje, A. A., & Gandhi, N. M. (2020). Design and development of small wind turbine for power generation through high velocity exhaust air. Renewable Energy, 145, 1487–1493.

Fazlizan, A., Chong, W. T., Yip, S. Y., Hew, W. P., & Poh, S. C. (2015). Design and experimental analysis of an exhaust air energy recovery wind turbine generator. Energies, 8(7), 6566–6584.

Rahmatian, M. A., Tari, P. H., Mojaddam, M., & Majidi, S. (2022). Numerical and experimental study of the ducted diffuser effect on improving the aerodynamic performance of a micro horizontal axis wind turbine. Energy, 245, 123267.

Pambudi, N. A., Febriyanto, R., Wibowo, K. M., et al. (2019). The performance of shrouded wind turbine at low wind speed. Energy Procedia, 158, 260–265.

Pellegrini, M., Guzzini, A., & Saccani, C. (2021). Experimental measurements of the performance of a micro-wind turbine located in an urban area. Energy Reports, 7, 3922–3934.

Li, X., & Zhao, M. (2024). Methodology for power generation using exhaust fan cum micro wind turbines in high-rise buildings. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 46(1).

Chong, W. T., Fazlizan, A., Poh, S. C., Pan, K. C., & Hew, W. P. (2013). Design, simulation and testing of an urban vertical axis wind turbine with the omni-direction-guide-vane. Applied Energy, 112, 601–609. (catatan: relevan sebagai literatur dasar)

Markom, A. M., Hadri, M. H. A., Yazid, T. Z. M., Yusof, Z. M., Markom, M. A., & Muhammad, A. R. (2022). Electricity generation from renewable energy based on abandoned wind fan. ArXiv Preprint.

]11] Wibawa, U., Permadi, A. F., & Hasanah, R. N. (2021). A micro-scale cyclone-wind turbine for rooftop ventilator. Indonesian Journal of Electrical Engineering and Computer Science, 11(2), 614–621.

Santoso, B., Prija Tjahjana, D. D. D., & Widodo, P. J. (2024). Performance evaluation of axial flow wind turbine integrated with the condenser. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 76(3), 85–91.

Rismandianto, R., Kusumanto, R. D., & Carlos, R. (2023). Utilization of exhaust fan from AC for horizontal axis wind turbine. Journal of Mechanical, Civil and Industrial Engineering, 4(3), 1–6.

Pambudi, N. A., et al. (2019). Jurnal Teknik Mesin & Energi, perbandingan turbin terlindungi di kecepatan rendah.

Yusra, A. A., & Herdiyanti, N. (2022). Analisis CFD aliran buangan AC untuk turbin angin mikro. Jurnal Teknik Mesin UNS, 15(1), 45–52.

Sari, R. P., & Firmansyah, D. (2021). Studi aerodinamika turbin angin kecil di ventilasi bangunan. Jurnal Rekayasa Energi, 9(2), 77–85.

Gunawan, D., & Setiawan, A. (2020). Desain multi-blade turbin angin skala mikro untuk energi HVAC. Jurnal Teknik Elektro ITB, 12(1), 34–42.

Hidayat, F., & Nugroho, T. (2022). Integrasi turbin angin difuser pada aliran HVAC exhaust. Jurnal Energi Terbarukan Polibatam, 6(1), 13–21.

Utami, Y. S., & Putri, A. I. (2023). Evaluasi kinerja inverter pada sistem mikro turbin angin HVAC. Jurnal Teknik Elektro UNDIP, 10(2), 102–110.

Pratama, B. A., & Rahadian, M. (2021). Analisis beban variabel pada sistem inverter wind-AC. Jurnal Sistem Tenaga, 8(1), 61–69.