PEMANFAATAN ENERGI KALOR DARI UDARA BUANG TOILET KAMAR HOTEL MENGGUNAKAN ANALISA NTU

PAMUNGKAS, WAHYU YUDHA (2025) PEMANFAATAN ENERGI KALOR DARI UDARA BUANG TOILET KAMAR HOTEL MENGGUNAKAN ANALISA NTU. S1 thesis, Universitas Mercu Buana Jakarta.

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Abstract

This study examines the potential utilization of thermal energy from hotel room toilet exhaust air to improve the efficiency of air conditioning systems. In hotel ventilation systems operating 24 hours a day, exhaust air from toilets still contains thermal energy that can be recovered to cool incoming fresh air. The study employs a numerical manual calculation approach based on convection and conduction theory. The heat recovery system is designed with a crossflow plate heat exchanger using aluminum plates, which have higher thermal conductivity compared to conventional materials such as paper. The investigated parameter variations include air velocity (5 and 8 m/s), plate thickness (1 and 1.5 mm), toilet exhaust air temperature of 24 °C, and incoming outdoor air temperature of 33 °C. Simulation results indicate that increasing air velocity and reducing plate thickness significantly enhance heat transfer efficiency. The highest efficiency was achieved under turbulent flow conditions, with heat transfer reaching 417.45 W. The study concludes that utilizing heat from hotel toilet exhaust air through a crossflow heat exchanger system can reduce HVAC system energy loads and support energy conservation in accordance with national standards (SNI 6390:2020). Further recommendations include prototype development, field testing, and integration of the system into a Building Management System (BMS). Keywords: thermal energy, toilet exhaust air, aluminum plate heat exchanger, energy efficiency improvement, HVAC Penelitian ini mengkaji potensi pemanfaatan energi kalor dari udara buang toilet kamar hotel untuk meningkatkan efisiensi sistem tata udara. Dalam sistem ventilasi hotel yang beroperasi 24 jam, udara buang dari toilet masih mengandung energi termal yang dapat dimanfaatkan kembali untuk mendinginkan udara segar (fresh air) yang masuk. Penelitian ini menggunakan pendekatan numerik perhitungan manual berdasarkan teori konveksi dan konduksi. Sistem pemulihan panas dirancang dengan plate heat exchanger tipe aliran silang menggunakan pelat aluminium, yang memiliki konduktivitas termal lebih tinggi dibandingkan bahan konvensional seperti kertas. Variasi parameter yang diteliti meliputi kecepatan aliran udara (5, dan 8 m/s), ketebalan pelat (0.4 dan 1 mm), serta suhu udara buang dari Toilet sebesar 24 oC dan udara masuk dari suhu udara luar sebesar 33 oC. Hasil simulasi menunjukkan bahwa peningkatan kecepatan udara dan pengurangan ketebalan pelat secara signifikan meningkatkan efisiensi perpindahan panas. Efisiensi tertinggi diperoleh pada kondisi aliran turbulen dengan nilai perpindahan panas mencapai 417,45 W. Penelitian ini menyimpulkan bahwa pemanfaatan panas buang toilet hotel melalui sistem heat exchanger aliran silang dapat mengurangi beban energi sistem HVAC dan mendukung konservasi energi sesuai standar nasional (SNI 6390:2020). Rekomendasi lanjutan mencakup pengembangan prototipe, uji lapangan, serta integrasi sistem ke dalam Building Management System (BMS). Kata kunci: energi kalor, udara buang toilet, dengan menggunakan Plate heat exchanger berbahan aluminium, untuk meningkatkan efisiensi energi, HVAC.

Item Type: Thesis (S1)
Call Number CD: FT/MSN. 25 094
NIM/NIDN Creators: 41322120065
Uncontrolled Keywords: energi kalor, udara buang toilet, dengan menggunakan Plate heat exchanger berbahan aluminium, untuk meningkatkan efisiensi energi, HVAC.
Subjects: 000 Computer Science, Information and General Works/Ilmu Komputer, Informasi, dan Karya Umum > 020 Library and Information Sciences/Perpustakaan dan Ilmu Informasi > 022 Administration of The Physical Plant/Administrasi dan Fisik Perpustakaan > 022.8 Heating, Ventilation, Air Conditioning/Pemanasan, Ventilasi, AC
600 Technology/Teknologi > 690 Buildings/Teknik Bangunan > 696 Energy and Environmental of Building/Pengaturan Energi dan Lingkungan Sekitar Bangunan
600 Technology/Teknologi > 690 Buildings/Teknik Bangunan > 697 Heating, ventilating, air-conditioning engineering/Teknik Pemanasan Rumah, Teknik Pemanas Ruangan, Teknik Ventilasi dan Pendingin Ruangan AC
Divisions: Fakultas Teknik > Teknik Mesin
Depositing User: khalimah
Date Deposited: 29 Aug 2025 06:20
Last Modified: 29 Aug 2025 06:20
URI: http://repository.mercubuana.ac.id/id/eprint/97250

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