Penelitian ini bertujuan untuk mengetahui pengaruh dimensi nosel terhadap kinerja Liquid Jet Gas Pump yang difungsikan sebagai pompa vakum. Liquid Jet Gas Pump adalah suatu alat konversi energi yang mampu mengalirkan fluida udara (secondary flow) dengan memanfaatkan fluida air (primary flow/motive flow) berdasarkan perbedaan tekanan diantara kedua fluida tersebut tanpa menggunakan bagian-bagian yang bergerak. Dimensi nosel yang dimaksudkan disini adalah diameter nosel pada sisi keluar aliran motive. Penelitian dilakukan menggunakan metode eksperimental dengan parameter yang diteliti adalah hubungan efisiensi terhadap dimensi nosel, rasio aliran, dan koefisien nosel. Adapun jenis nosel yang digunakan adalah straight- hole nozzle dengan diameter 8, 9, 10, 11, dan 12 mm. Sedangkan debit aliran primer (primary flow/motive flow) berkisar antara 0,44 sampai 1,14 L/s dan debit aliran sekunder (secondary flow) berkisar antara 0,04 sampai 0,42 L/s. Hasil penelitian menunjukkan hubungan yang signifikan antara perubahan dimensi nosel terhadap efisiensi dan koefisien nosel, dimana dengan bertambahnya diameter nosel cenderung menyebabkan terjadinya penurunan efisiensi dan koefisien nosel. Efisiensi maksimum yang dihasilkan masing-masing nosel dengan diameter nosel 8, 9, 10, 11, dan 12 mm berturut-turut adalah 20,21%, 16,77%, 6,58%, 12,25%, dan 6,99%. Sedangkan koefisien nosel berturut- turut adalah 0,88, 0,76, 0,61, 0, 76, dan 0,76.

This study aims to determine the effect of nozzle dimensons on the performance of liquid jet gas pump which functioned as a vacuum pump. Liquid jet gas pump is an energy conversion device that is able to drain the fluid air (secondary flow) by utilizing the water fluid (primary flow/motive flow) by ulitilizing the water fluid (primary flow/motive flow) based on the pressure different between the two fluids without using moving parts. The term of dimensions of the nozzle is the diameter of the nozzle on the outlet stream of the motive. The study was conducted using experimental method with the parameters studied are the relationship between the dimensions of the nozzle efficiency, flow ratio, and coefficient of the nozzle. The type of nozzle used is straight-hole nozzle with a diameter of 8, 9, 10, 11, and 12 mm. While the primary flow ranged from 0.44 to 1.44 L/s and secondary flow ranged from 0.04 to 0.42 L/s. The results showed a significant relationship between change in the dimensions of the nozzle to the efficiency and the coefficient of the nozzle, which with increasing diameter of the nozzle tends to result in decreased efficiency and coefficient of the nozzle. The resulting maximum efficiency of each nozzle with a nozzle diameter of 8, 9, 10 ,11, and 12 mm respectively were 20.21, 16.77, 6.58, 12.25, and 6.99 %. While the coefficient of the nozzle row is 0.88, 0.76, 0.61, 0.76, and 0.76.

Kata Kunci : liquid jet gas pump, dimensi nosel, kinerja