Izdahar, Alrian Naafi (2023) Analisis Kinerja Termal Pada Prototipe Eco Reefer Container ½ Ton Berbasis Modifikasi Evaporator. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sistem Phase Change Material (PCM) telah digunakan secara luas dalam sistem refigerasi. Tujuan utama menggunakan senyawa PCM dalam sistem refigerasi adalah untuk kemudian dapat diintegrasikan ke dalam sistem pendingin secara langsung untuk menghemat energi dengan mempertahankan suhu ruang kargo ketika sistem refrigerasi tidak aktif. Pada penelitian ini akan membandingkan evaporator konvensional finned tube dengan evaporator hasil modifikasi menjadi tipe hibrid dimana pipa evaporator akan melewati sebuah enkapsulasi berisi larutan PCM 18% NaCl + H2O. Penelitian dilakukan pada prototipe kontainer berpendingin kapasitas ½
ton menggunakan refrigerant R404A, dengan pengujian membandingkan beban pendinginan 0,85 kW (tanpa kargo) dengan 1,25 kW (dengan kargo). Pengambilan data yang diamati adalah suhu, waktu, dan tekanan sistem. Hasil penelitian menunjukkan bahwa waktu yang diperlukan untuk mencapai suhu -15°C adalah dalam waktu 24 jam untuk variabel tanpa kargo dan 26 jam untuk variabel dengan kargo. Waktu tersebut lebih tinggi 79% dan 41% dibandingkan sistem evaporator konvensional finned tube berturut-turut untuk variabel tanpa kargo dan dengan kargo. Saat sistem refrigerasi dinonaktifkan, peningkatan suhu sebesar 10°C terjadi selama 9 jam 45 menit pada variabel tanpa kargo dan pada variabel dengan kargo terjadi selama 8 jam 30 menit. Tekanan rata-rata pada evaporator tipe hibrid PCM ketika sistem pendinginan aktif adalah 18,56 bar tekanan tinggi dan 3,76 bar tekanan rendah untuk variabel tanpa kargo, pada percobaan dengan kargo didapatkan 18,55 bar tekanan tinggi dan 3,25 bar tekanan rendah. Nilai tersebut 9% lebih tinggi dibanding dengan tekanan sistem pada tipe evaporator konvensional finned tube. COP rata-rata sistem modifikasi evaporator adalah sebesar 2,95 sehingga 11% lebih rendah dibanding sistem konvensional
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Phase Change Material (PCM) systems have been used extensively in refigeration systems. The main purpose of using PCM compounds in refigeration systems is that they can then be integrated into the refrigeration system directly to save energy by maintaining the temperature of the cargo hold when the refrigeration system is inactive. This study will compare a conventional finned tube evaporator with an evaporator modified into a hybrid type where the evaporator pipe will pass through an encapsulation containing 18% NaCl + H2O PCM solution. The research was conducted on a prototype ½ ton refrigerated container using R404A refrigerant, with tests comparing a cooling load of 0.85 kW (without cargo) with 1.25 kW (with cargo). The observed data were temperature, time, and system pressure. The results showed that the time required to reach a temperature of -15°C was within 24 hours for the variable without cargo and 26 hours for the variable with cargo. This time is 79% and 41% higher than the conventional finned tube evaporator system for the variable without cargo and with cargo, respectively. When the refrigeration system was deactivated, the temperature increase of 10°C occurred for 9 hours 45 minutes in the variable without cargo and 8 hours 30 minutes in the variable with cargo. The average pressure in the PCM hybrid type evaporator when the refrigeration system is active is 18.56 bar of high pressure and 3.76 bar of low pressure for the variable with cargo. The average COP of the modified evaporator system is 2.95, which is 11% lower than the conventional system.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | eco reefer container, evaporator, kinerja termal, phase change material ; eco eeefer container, evaporator, phase change material, thermal performance |
| Subjects: | T Technology > TJ Mechanical engineering and machinery > TJ263 Heat exchangers T Technology > TP Chemical technology > TP492.3 Refrigeration and refrigerating machinery V Naval Science > VM Naval architecture. Shipbuilding. Marine engineering > VM485 Cold storage on ships. Marine refrigeration. |
| Divisions: | Faculty of Marine Technology (MARTECH) > Marine Engineering > 36202-(S1) Undergraduate Thesis |
| Depositing User: | Alrian Naafi Izdahar |
| Date Deposited: | 05 Oct 2023 05:41 |
| Last Modified: | 05 Oct 2023 05:41 |
| URI: | http://repository.its.ac.id/id/eprint/102186 |
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