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Vortex
Published by Institut Teknologi Dirgantara Adisutjipto
ISSN : 27216152     EISSN : 30217601     DOI : https://doi.org/10.28989/vortex
Core Subject : Science, Engineering,
Aerospace Engineering Earth & Planetary Sciences Energy Materials Science & Nanotechnology Mechanical Engineering
Vortex merupakan jurnal ilmiah dalam diang dirgantara dengan cakupan Perancangan Pesawat Terbang, Perawatan Pesawat Terbang, Operasi Penerbangan, Mesin Pesawat Terbang dan Elektronika Penerbangan
Arjuna Subject : Ilmu Material (semua kategori) - Logam dan Paduan Logam
Articles 9 Documents
 1 
Search results for , issue "Vol 3, No 2 (2022)" : 9 Documents clear
STUDI EKSPERIMEN ALAT DESTILASI TENAGA SURYA DI KELURAHAN WAY HUWI Ramadhan, Ahmad Fikri; Afisna, Lathifa Putri; Maharani, Ajeng; Ramadhanty, Nabila; Isak, Rabin; Ningsih, Wulan
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (447.549 KB) | DOI: 10.28989/vortex.v3i2.1260

Abstract

Destilasi merupakan salah satu proses pengolahan air keruh menjadi air bersih. Pada prinsipnya penyulingan merupakan cara sederhana untuk mendapatkan air bersih melalui proses penyulingan air kotor. Dalam proses distilasi, terdapat proses perpindahan panas, penguapan, dan kondensasi. Pada percobaan ini akan membuat alat destilasi air sederhana dengan menggunakan alat dan bahan yang terbuat dari stainless steel, styrofoam 2, aluminium foil, lakban hitam, lakban bening, kaca 28x34 cm. (tebal 3 mm), tipe ganda, gunting, pemotong, penggaris, dan air keruh. Hasil pengujian diperoleh dengan cara mengumpulkan data dengan cara mengkompromikan alat destilasi yang sudah berisi baskom stainless steel berisi air keruh di Desa Way Huwi.Kemudian udara ditempatkan di bawah sinar matahari. Pengambilan data suhu dan volume dilakukan mulai pukul 08.00 s/d 17.00 WIB. Dari data percobaan dapat diketahui bahwa efisiensi alat pada volume 1000 ml adalah 13,2%, pada volume 500 ml memiliki efisiensi 10,8%, dan pada volume 300 ml memiliki efisiensi. sebesar 10,3%. Kemudian ketebalan kaca yang digunakan sebagai penutup juga mempengaruhi efisiensi alat distilasi udara, dan ketebalan kaca yang efisien adalah 3 mm. Untuk mendapatkan data yang baik yang diperlukan sinar matahari yang terik. Semakin panas sinar matahari yang mengenai alat destilasi udara maka semakin cepat proses penguapan dan semakin banyak volume udara suling.Kemudian ketebalan kaca yang digunakan sebagai penutup juga mempengaruhi efisiensi alat distilasi udara, dan ketebalan kaca yang efisien adalah 3 mm. Untuk mendapatkan data yang baik yang diperlukan sinar matahari yang terik. Semakin panas sinar matahari yang mengenai alat destilasi udara maka semakin cepat proses penguapan dan semakin banyak volume udara suling. Kemudian ketebalan kaca yang digunakan sebagai penutup juga mempengaruhi efisiensi alat distilasi udara, dan ketebalan kaca yang efisien adalah 3 mm. Untuk mendapatkan data yang baik yang diperlukan sinar matahari yang terik. Semakin panas sinar matahari yang mengenai alat destilasi udara maka semakin cepat proses penguapan dan semakin banyak volume udara suling. 
SIMULASI KESTABILAN PROTOTYPE UAV-SPRAYER BERBASIS QUADCOPTER TERHADAP PENAMBAHAN SEKAT PADA PENAMPUNG CAIRAN Hariyanto, Kris; Dirgantara, Bangga
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (644.587 KB) | DOI: 10.28989/vortex.v3i2.1229

Abstract

The use of UAVs has begun to penetrate the world of agriculture. One of the functions of UAVs in agriculture is to spray pesticides. The pesticides used are liquid so that when the UAV is airborne and maneuvering, the fluid experiences fluid motion or sloshing. Sloshing that occurs can cause the balance of the UAV to be disturbed. To overcome this, a bulkhead or baffle is needed in the reservoir in order to reduce fluid movement. In the case of the research studied, the simulation of sloshing in the reservoir with the presence of baffles and without the presence of baffles. This research uses different reservoir variations and different water levels, namely 55 mm, 35 mm and 15 mm. Simulations are carried out during cruising and maneuvering flights at a speed of 2 m/s. The container modeling uses the Catia V5R20 software and the simulation uses the Ansys 14.5 software. The simulation results show that the effect of baffle placement is more visible if the baffle is placed in the xy plane, while for the baffle placement in the yz plane, the force caused by sloshing is greater. In spraying the UAV-Sprayer will more often fly forward (cruise), while for maneuvers (right or left) it is only done occasionally/not too often. So that giving baffles is more effective in the xy plane because it can reduce sloshing better than the baffles in the yz plane.
PENGARUH KECEPATAN FEEDRATE FRICTION STIR WELDING (FSW) TERHADAP SIFAT MEKANIK DAN STRUKTUR MIKRO PADA ALUMINIUM PADUAN AA 2024-T3 Nugroho, Fajar; Ahmadi, Nurfi; Hidayat, Sarif
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (494.289 KB) | DOI: 10.28989/vortex.v3i2.1265

Abstract

Friction stir welding (FSW) adalah suatu teknologi pengelasan yang merupakan proses solid-state joining yang bisa digunakan untuk menyambungkan material aluminium dengan mampu las yang rendah. Proses FSW memanfaatkan putaran dari tool yang menggesek dua buah lempengan logam yang akan disambung. Aluminium 2024 T3 dengan ketebalan 4 mm disambung menggunakan proses FSW dengan variasi feedrate yang digunakan 13 mm/menit, 15 mm/menit, dan 25 mm/menit, kecepatan putaran spindle 910 rpm dan kedalaman pin 3 mm. Pengujian yang dilakukan adalah pengujian tarik, kekerasan dan uji struktur mikro pada masing-masing variasi pengelasan.Hasil penelitian menunjukkan bahwa kekuatan tarik dan regangan tarik tertinggi terjadi pada pengelasan dengan feedrate 25 mm/menit sebesar 221,51 MPa dan 3,60. Kemudian kekuatan tarik dan regangan tarik terendah terjadi pada pengelasan dengan feedrate 13 mm/menit sebesar 198,63 MPa dan 2,26. Nilai kekerasan tertinggi di area nugget zone dihasilkan pada pengelasan dengan feedrate 25 mm/menit yaitu sebesar 137 VHN dan nilai kekerasan terendah dihasilkan pada pengelasan dengan feedrate 13 mm/menit yaitu sebesar 105 VHN. Hasil foto struktur mikro pada area nugget zone dan TMAZ (Thermomecanically Affected Zone) mengalami perubahan seiring dengan berubahnya feedrate.
ANALISIS FAKTOR DELAMINASI PADA MATERIAL SERAT GELAS TERHADAP PARAMETER DRILLING Priyahapsara, Istyawan
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (596.425 KB) | DOI: 10.28989/vortex.v3i2.1237

Abstract

Delaminasi adalah sebuah ukuran dari area rusak sekitar lubang (Abdullah, 2019). Delaminasi tinggi bisa mengakibatkan kekuatan struktur yang berkurang. Dalam penelitian ini, akan dilakukan drilling dengan parameter permesinan yang sesuai dalam kaedah permesinan, selanjutnya dilakukan observasi citra makro terhadap lubang yang dihasilkan. Pengujian dilakukan pada material serat gelas 5 layer, dengan pahat drilling diameter 6.3 mm. Parameter drilling menggunakan variasi putaran mesin 1860 rpm, 2920 rpm, 4540 rpm, dan kecepatan pemakanan vertikal (plunging) 0.038 m/menit, 0.067m/menit. Didapatkan hasil nilai terendah delaminasi didapat pada spindle speed 1860 RPM dan plunging rate 0.038 rev/min sebesar 1.24. Nilai tertinggi delaminasi didapat pada spindle speed 4540 RPM dan plunging speed 0.076 rev/min
EXPERIMENTAL STUDY OF PORTABLE STOVE PERFORMANCE USE SOLAR ENERGY Afisna, Lathifa Putri; Adimas, Fransiskus; Adryansyah, Rizky Sultan
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (279.416 KB) | DOI: 10.28989/vortex.v3i2.1251

Abstract

Alternative energy has begun to develop over time, such as thermal stoves that use solar energy as a heat source for cooking. The solar cooker must be of high quality, affordable, user friendly, lightweight and, stackable. A thermal solar cooker can cook a meal because the plates are heated by the sun's energy. Sunlight enters the pan or thermal solar panel and reflected toward the can or heated object. Then, Sunlight turns into heat energy.Thermal stove performance analysis was carried out starting from 09:00 WIB to 16:00 WIB. The most efficient time to use a thermal stove is 13:00 WIB, it is recorded that 350 ml of water from a temperature of 27℃ reaches a temperature of 83℃ with a heating duration of 55 minutes. One of the conclusion of this  study is the time of heating  influenced by weather temperature. Last, to shorten the time, then we must use  the shape of sun catcher like a parabola.
COMPARISON OF SANDWICH COMPOSITE WING STRUCTURE WITH BALSA WOOD (CASE STUDY OF UAV AIRCRAFT FIXED WING VTOL VX-2) Santoso, Djarot Wahju; Hariyanto, Kris
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (876.516 KB) | DOI: 10.28989/vortex.v3i2.1236

Abstract

UAV aircraft with a fixed wing configuration with multi-rotor are aircraft capable of vertical take-off and landing (VTOL). In designing the wing structure of aircraft, the weight factor and the strength of the wing structure are factors that need to be considered. The use of sandwich composite materials on UAV wings is expected to be able to meet the requirements of UAV aircraft, namely having a light weight, having high rigidity and strength. In this study, a comparative analysis the strength of the sandwich composite wing structure with the balsa wood wing of the UAV VTOL VX-2 aircraft was carried out. The steps taken are to model the composite wing structure of sandwiches and balsa wood using CATIA. Performing the process of structural analysis using ANSYS software. Both half-span models are subjected to lift and vertical take-off loads. From the analysis results, the sandwich composite wing (glass fiber skin with styrofoam core) is stronger than the balsa wood wing structure under vertical take off loads. While the VTOL rods, upper and lower spars of the balsa wood wing model are stronger than the sandwich structure under lift loads, but overall the sandwich wing structure is stronger than the balsa wood wing
PENGEMBANGAN AWAL ALGORITMA PROGRAM ANALISIS PERFORMA LANDASAN PACU TERHADAP BERAT TAKE-OFF PESAWAT Dewi, Gladis Tiara Andan; Nasution, Muhammad Ridlo Erdata; Gunawan, Gunawan
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (659.394 KB) | DOI: 10.28989/vortex.v3i2.1241

Abstract

Pengembangan algoritma suatu program analisis performa landasan pacu terhadap berat take-off pesawat dilakukan untuk memfasilitasi analisis pada bandar udara secara umum. Dalam hal ini, metode ACN-PCN dan ARFL digunakan pada algoritma yang dibuat. Algoritma kemudian diimplementasikan pada kode program yang ditulis dengan GNU Octave dan dicoba untuk dijalankan dengan menggunakan data bandar udara Depati Amir serta tiga jenis pesawat berbeda, yaitu ATR 72, Boeing 737-800, dan Boeing 777-300ER. Berdasarkan hasil yang diperoleh, program berhasil melakukan analisis kemampuan pengoperasian take-off pesawat termasuk mengindikasikan ada tidaknya batasan operasional ketiga jenis pesawat terhadap kondisi landasan pada bandar udara acuan.
TENSILE STRENGTH ANALYSIS OF SEA PANDAN LEAVES (PANDANUS TECTORIUS) FIBER REINFORCED EPOXY COMPOSITE Hartini, Dwi; Pinandita, Lazuardy Rahendra; Mubarak, Pramuda Naufal
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (451.472 KB) | DOI: 10.28989/vortex.v3i2.1242

Abstract

The use of sea pandan leaves (pandanus tectorius) as a composite material is intended to reduce the use of synthetic fibers and increase the use of sea pandan leaves which are still wasted. This study aims to determine the tensile strength of the fiber composite of sea pandan leaves based on the manufacturing method and the direction of the fiber used. Composite manufacture using Hand Lay Up and Vacuum Bag methods. The direction of the fiber used is 00 and 900. Tensile test is based on ASTM D3039. The results showed that the composites made using the Vacuum Bag method had a higher tensile strength than the composites made using the Hand Lay Up method, which was 16.54 MPa for the 00 fiber direction and 13.60 MPa for the 900 fiber direction. The tensile strength of the composite using the 00 fiber direction is higher than the composite using the 900 fiber direction, which is 6.48 MPa for the Hand Lay Up method and 16.54 MPa for the Vacuum Bag method.
THE SIMULATION OF UNMANNED AERIAL VEHICLE EAGLE-X AS SPARROWS PESTS REPELLENT Retnowati, Nurcahyani Dewi; Junaidin, Buyung; Dasrial, Dasrial
Vortex Vol 3, No 2 (2022)
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (606.847 KB) | DOI: 10.28989/vortex.v3i2.1223

Abstract

The technology that can be developed from Unmanned Aerial Vehicle (UAV) in agriculture is the Unmanned Aerial Vehicle Eagle-X. This technology can help farmers in carrying out their daily activities to repel bird pests on agricultural land. However, people have difficulty understanding how to use UAVs. So, with this simulation, it is hoped that it can help farmers and producers understand the workings of the eagle-x aircraft. The simulation is made using 3Ds Max software which functions to create all 3D objects and also uses Unity software to create animations and simulations. This simulation can run well on a PC or laptop that has a Windows 10 operating system with 64bit and a minimum of core i-3 specifications.  Trials using simulations were carried out on 30 farmers and the results showed that 86.67% of farmers stated that this simulation was effective in providing an overview of how the Unmanned Aerial Vehicle Eagle-X works in repelling sparrow pests.

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