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RANCANGAN ALAT PENGHANCUR SAMPAH PADA GREASE TRAP UNTUK SISTEM SANITASI DI BANDAR UDARA INTERN Harman Sudjanto; KGS. M. Ismail; Haret Rahma Fitri
Langit Biru: Jurnal Ilmiah Aviasi Vol 9 No 3 (2016): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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Recently, Kualanamu International Airport – Medan has 12 units grease trap. The function of grease trap is filtering the fat which is produced by stainless and filtering the oil, fat and rubbish fom the toilet and restaurant in the terminal of the airport. So far, in order to filter the rubbish, garbage and fat from grease trap in the terminal is using manual technique. The technician hires contractor to move the garbage, rubbish and fat by using bucket into pick-up car then throws into Sump Pit. If they ignore all of this steps, it can cause bad smell around the airport.

RANCANGAN CLEAN AGENT FIRE SUPPRESSION SYSTEM DI RUANG PANEL CHILLER TERMINAL 1 BANDAR UDARA INTERNATIONAL JUANDA DENGAN LUAS RUANGAN 29,43 METER Aeron Satria Bayu Aji; KGS. M. Ismail; Taryana
Langit Biru: Jurnal Ilmiah Aviasi Vol 13 No 01 (2020): Langit Biru: Jurnal Ilmiah Aviasi Vol.13 No.1 [Februari 2020]
Publisher : Politeknik Penerbangan Indonesia Curug

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B.IndonesiaKebakaran adalah bencana yang tak terduga, bisa terjadi kapan saja dan dimana saja, tak terkecuali di ruang panel chiller Bandar Udara Juanda Surabaya yang belum dilengkapi dengan sistem pemadam kebakaran secara otomatis. Untuk itu perlu dilakukan perancangan Clean Agent Fire Suppression System yang mengacu pada aturan NFPA 2001 dan SNI 03-3985-2000. Clean agent fire suppression system yang dirancang pada ruang panel chiller Bandar Udara Juanda Surabaya, memerlukan analisa pada bagian-bagian tertentu mulai dari kebutuhan pasokan clean agent yang harus tersedia, menentukan jumlah dan jenis nozzle, penentuan diameter pipa, menentukan jumlah dan jenis smoke detector yang harus tersedia. Dengan analisa tersebut, dapat ditentukan spesifikasi yang dibutuhkan dari bagian-bagian clean agent fire suppression system agar tidak terjadi kegagalan dalam beroperasi. Metode yang digunakan perancangan ini adalah dengan melakukan perhitungan kebutuhan clean agent yang diperlukan jika terjadi kebakaran, penentuan jumlah dan jenis nozzle sesuai dengan karakteristik ruangan, penentuan diameter pipa berdasarkan flow rate, sampai penentuan jumlah dan jenis detector yang akan digunakan pada ruangan tersebut. B.EnglishFires are unexpected disaster, can happen anytime and anywhere, not least in the chiller panel space Juanda Airport in Surabaya is not equipped with automatic fire-extinguishing system. It is necessary for the design of Clean Agent Fire Suppression System, which refers to the rules of NFPA 2001 and SNI 03-3985-2000. Clean agent fire suppression system designed in panel room chiller Juanda Airport in Surabaya, requires the analysis of certain parts from the supply needs of clean agent should be available, determine the number and type of nozzle, determining the diameter of the pipe, determine the number and type of smoke detector is must be available. With this analysis, we can determine the required specifications of the parts clean agent fire suppression system to prevent failure. The method used this scheme is by calculating the needs of clean agent is necessary in case of fire, the determination of the amount and type of nozzle in accordance with the characteristics of the room, determining the diameter of the pipe based on flow rate, until the determination of the amount and type of detector to be used in the room.

RANCANGAN JADWAL BUKA TUTUP OPERASI OTOMATIS BERBASIS ARDUINO UNO DI GERBANG CEWAMA ASRAMA CURUG 1 SEKOLAH TINGGI PENERBANGAN INDONESIA .pdf Dena Farasi; KGS. M. Ismail; R.B. Budi Kartika W
Langit Biru: Jurnal Ilmiah Aviasi Vol 12 No 1 (2019): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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In the Curug 1 ICAI Dormitory, there is a gate which connect between the main road and the dormitory. The gate is the main access for cadet to enter and exit the dormitory. The system work with Arduino 4 Input Microcontroller (2 analogs, 2 digitals), Real Time Clock module with CR2032 battery type and I2C Communication (SDA, SCL). Microcontroller will activate relay that capable to handle 220 volts of voltage and 10 Ampere of currents. Then Relay will give a cue to contactor and activate the Electric Motor as Prime Mover. The cable which used to connect RTC module to Arduino UNO is AWG cable 39 for 0.018 Ampere of Currents and AWG cable 11 for 12 Ampere of Currents to connect between Relay and Electric Motor. This following steps to program Arduino UNO : Activate the RTC module, Relay 1 and Relay 2 according to the specified time, download the DS3231 file, display the time planting program, and display the “current time”. With the application of the automation gate, it’s expected open-close gate automatically according to schedule which has specified.

RANCANGAN KUNCI PINTU OTOMATIS MENGGUNAKAN RFID BERBASIS MIKROKONTROLER DI ASRAMA BRAVO 1, 2, 3 CURUG 1 SEKOLAH TINGGI PENERBANGAN INDONESIA Reinhard Ferry Wijaksana; KGS. M. Ismail; Oka Fatra
Langit Biru: Jurnal Ilmiah Aviasi Vol 12 No 2 (2019): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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The key holds the role in the security system. Most of the door lock system still using a mechanic conventional key. The development of technology gives the solution in a key system as a better security system. So, it is needed to use and to optimize the tools that could give best security level in door lock system including convenience and comfort in case of use. one of that security system is using RFID that developed as automatic door lock system. The purpose of this research is to use based on micro controller Arduino nano ATmega 328p and the location at the dormitory door Bravo 1,2,3 to install an automatic door lock tool. Which consists of a mantle of door security that solenoid as an automatic security lock. Identification device consists of RFID Reader and RFID card. Lamp indicator using Light Emitting Diode (LED). When RFID reader reads RFID card, then the LED lamp will turn on and solenoid door lock works and if RFID card is not read in accordance with the microcontroller, LED and solenoid door lock wouldn’t work. With this method it is expected to work as desired

RANCANGAN SISTEM OTOMATIS CHLORINATOR PADA DISTRIBUSI AIR BERSIH DI BANDAR UDARA INTERNATIONAL SOEKARNO-HATTA Lukman Pambudi; KGS. M. Ismail; Harman Sudjanto
Langit Biru: Jurnal Ilmiah Aviasi Vol 12 No 3 (2019): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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Chlorinator is processing a chlorine solution (mix chlorine with water) and the solution will be injected using dosing pumps into clean water that will be distributed throughout the Soekarno-Hatta airport. In this design the automatic control chlorinator system using a microcontroller arduino uno (ATmega 328P). To drain the chlorine into the measuring tube using a solenoid valve that works automatically stop working when a small float in the measuring tube reaches the maximum limit. Then to keep the solution in the tank from being discharged chlorinator uses a float sensor. Sensor buoys will work to enable the water pump and solenoid valve when the volume of the solution under 260 liters

ANALISIS PERHITUNGAN SISTEM PERPIPAAN HYDRANT PILLAR DAN SPRINKLER PADA LANTAI I GEDUNG SIMULATOR SEKOLAH TINGGI PENERBANGAN INDONESIA Viyan Fajrian; KGS. M. Ismail; Andri Kurniawan
Langit Biru: Jurnal Ilmiah Aviasi Vol 11 No 2 (2018): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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Fire is a disaster that caused by undesireble fire also could cause a big loss both of property or human life as well. therefore, the prevention system of fire is the most important thing. In the simulator building of Indonesia Civil Aviation Institute, there is only a hydrant pillar pipe that has no water supply, fire pump and sprinkler as the first prevention of fire hazard. therefore this issue is in the analysis The calculation analysis is done by determining the location of sprinkler, calculating the capacity of the water , and determining the power of the pump with counting the total of head loss on that pump. Refering to SNI 03-3989-2000, SNI 03- 1457-2000, related articles, last finally project and theories on plumbing system also using ANSYS 16.0 for helping the counting analysis. The result of calculation analysis is location of sprinkler, water volume and pump force to instalation hydrant and sprinkler for prevention hazard.

RANCANGAN KONTROL LAMPU PENERANGAN KORIDOR DAN AIR CODITIONER PADA ASRAMA TOWER DI SEKOLAH TINGGI PENERBANGAN INDONESIA Muhammad Rizky; KGS. M. Ismail; Suse Lamtiar S
Langit Biru: Jurnal Ilmiah Aviasi Vol 13 No 02 (2020): Langit Biru: Jurnal Ilmiah Aviasi Vol.13 No.2 [Juni 2020]
Publisher : Politeknik Penerbangan Indonesia Curug

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B.Indonesia Pada asrama tower Sekolah Tinggi Penerbangan Indonesia memiliki fasilitas-fasilitas yang ada, yaitu lampu penerangan koridor asrama dan air conditioner (AC) jenis split. Namun saat ini lampu penerangan koridor yang masih dioperasikan secara manual yang sering kali taruna lalai mematikan kembali lampu koridor ketika tidak dibutuhkan, adapun untuk AC yang pengoperasiannya masih menggunakan timer swicth sehingga pada saat terjadi pemadaman listrik maka timer perlu diatur ulang karena mengalami perbedaan waktu akibat dari pemadaman listrik. Berdasarkan kondisi saat ini maka perlu dibuat suatu rancangan untuk menggabungkan pengoperasian lampu penerangan koridor dan AC yang bisa menyesuaikan waktu secara otomatis apabila terjadi pemadaman listrik. Sistem kerja dari rancangan menggunakan mikrokontroler Arduino Mega 2560 dan modul RTC (real time clock) DS3231 sebagai pengatur jadwal rancangan. Dengan rancangan ini dapat mengontrol lampu penerangan koridor dan AC secara otomatis. Serta dapat menghemat penggunaan energi listrik pada lampu penerangan koridor dan AC. B.English In the dormitory tower of the Indonesian Civil Aviation Institute is have the facilities which are the lights of dormitory corridors and air conditioners (AC) split type. But nowadays the corridor lights are still operated manually which is often negligent the cadets forget to turn off the corridor lights when the time is set, as for the air conditioner a deficiency is when the power outage occurs then the timer needs to be reset because it has a time difference resulting from a power outage. Based on current conditions, it is necessary to create a design to combine the operation of the corridor lights and the air conditioners, which can adjust the time automatically in case of power outage. The system works from the design using an Arduino Mega microcontroller 2560 and a module RTC (Real Time Clock) DS3231 as the schedule design organizer. With this design, it is to control the corridor lights and the air conditioners automatically. And can save the use of electrical energy in the corridor lighting and air conditioning.

RANCANGAN KONTROL PINTU RUANG SCIENCE ART MUSIC STUDIO DI SEKOLAH TINGGI PENERBANGAN INDONESIA Toni Dwi Tindak Hidayanto; KGS. M. Ismail; Usman Sumantri
Langit Biru: Jurnal Ilmiah Aviasi Vol 10 No 3 (2017): Langit Biru: Jurnal Ilmiah Aviasi
Publisher : Politeknik Penerbangan Indonesia Curug

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Control of Science Art Studio Room which is called (SAM Studio) is intended as one of security helping tools in SAM room studio at STPI (Indonesian State Aviation School) Curug. The matter that often we faced is the shortfall of responsibility of the studio room’s borrower and that sometimes there were lost and broken items without further action because of the mass amount of borrowers in the room of SAM studio. Seeing this, the writer has an idea to make a project that could give solutions towards the problems that take place. To design the tools that we hope to be utilized by STPI Curug, the writer searched for information from many sources whether like book references or websites regarding theories and programs that related to the project that is going to be made. This project consists of Microcontroller that is Arduino uno as the brain of the program that is being used, module data logger as the reciever of the data’s activity, other than that keypad 3 can be found as the manual lock from the shortest range with the already specified password, and also other components such as LCD 162, relay modul, modul I2C converter, and of course the transformator as power supply’s source of the project and also the magnetic lock that will be used to lock the room of SAM studio

RANCANGAN KONTROL LAMPU PENERANGAN KORIDOR DAN AIR CODITIONER PADA ASRAMA TOWER DI SEKOLAH TINGGI PENERBANGAN INDONESIA Muhammad Rizky; KGS. M. Ismail; Suse Lamtiar S
Langit Biru: Jurnal Ilmiah Aviasi Vol 13 No 02 (2020): Langit Biru: Jurnal Ilmiah Aviasi Vol.13 No.2 [Juni 2020]
Publisher : Politeknik Penerbangan Indonesia Curug

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B.Indonesia Pada asrama tower Sekolah Tinggi Penerbangan Indonesia memiliki fasilitas-fasilitas yang ada, yaitu lampu penerangan koridor asrama dan air conditioner (AC) jenis split. Namun saat ini lampu penerangan koridor yang masih dioperasikan secara manual yang sering kali taruna lalai mematikan kembali lampu koridor ketika tidak dibutuhkan, adapun untuk AC yang pengoperasiannya masih menggunakan timer swicth sehingga pada saat terjadi pemadaman listrik maka timer perlu diatur ulang karena mengalami perbedaan waktu akibat dari pemadaman listrik. Berdasarkan kondisi saat ini maka perlu dibuat suatu rancangan untuk menggabungkan pengoperasian lampu penerangan koridor dan AC yang bisa menyesuaikan waktu secara otomatis apabila terjadi pemadaman listrik. Sistem kerja dari rancangan menggunakan mikrokontroler Arduino Mega 2560 dan modul RTC (real time clock) DS3231 sebagai pengatur jadwal rancangan. Dengan rancangan ini dapat mengontrol lampu penerangan koridor dan AC secara otomatis. Serta dapat menghemat penggunaan energi listrik pada lampu penerangan koridor dan AC. B.English In the dormitory tower of the Indonesian Civil Aviation Institute is have the facilities which are the lights of dormitory corridors and air conditioners (AC) split type. But nowadays the corridor lights are still operated manually which is often negligent the cadets forget to turn off the corridor lights when the time is set, as for the air conditioner a deficiency is when the power outage occurs then the timer needs to be reset because it has a time difference resulting from a power outage. Based on current conditions, it is necessary to create a design to combine the operation of the corridor lights and the air conditioners, which can adjust the time automatically in case of power outage. The system works from the design using an Arduino Mega microcontroller 2560 and a module RTC (Real Time Clock) DS3231 as the schedule design organizer. With this design, it is to control the corridor lights and the air conditioners automatically. And can save the use of electrical energy in the corridor lighting and air conditioning.

RANCANGAN KONTROL LAMPU PENERANGAN KORIDOR DAN AIR CODITIONER PADA ASRAMA TOWER DI SEKOLAH TINGGI PENERBANGAN INDONESIA Muhammad Rizky; KGS. M. Ismail; Suse Lamtiar S
Langit Biru: Jurnal Ilmiah Aviasi Vol 13 No 02 (2020): Langit Biru: Jurnal Ilmiah Aviasi Vol.13 No.2 [Juni 2020]
Publisher : Politeknik Penerbangan Indonesia Curug

Show Abstract | Download Original | Original Source | Check in Google Scholar

B.Indonesia Pada asrama tower Sekolah Tinggi Penerbangan Indonesia memiliki fasilitas-fasilitas yang ada, yaitu lampu penerangan koridor asrama dan air conditioner (AC) jenis split. Namun saat ini lampu penerangan koridor yang masih dioperasikan secara manual yang sering kali taruna lalai mematikan kembali lampu koridor ketika tidak dibutuhkan, adapun untuk AC yang pengoperasiannya masih menggunakan timer swicth sehingga pada saat terjadi pemadaman listrik maka timer perlu diatur ulang karena mengalami perbedaan waktu akibat dari pemadaman listrik. Berdasarkan kondisi saat ini maka perlu dibuat suatu rancangan untuk menggabungkan pengoperasian lampu penerangan koridor dan AC yang bisa menyesuaikan waktu secara otomatis apabila terjadi pemadaman listrik. Sistem kerja dari rancangan menggunakan mikrokontroler Arduino Mega 2560 dan modul RTC (real time clock) DS3231 sebagai pengatur jadwal rancangan. Dengan rancangan ini dapat mengontrol lampu penerangan koridor dan AC secara otomatis. Serta dapat menghemat penggunaan energi listrik pada lampu penerangan koridor dan AC. B.English In the dormitory tower of the Indonesian Civil Aviation Institute is have the facilities which are the lights of dormitory corridors and air conditioners (AC) split type. But nowadays the corridor lights are still operated manually which is often negligent the cadets forget to turn off the corridor lights when the time is set, as for the air conditioner a deficiency is when the power outage occurs then the timer needs to be reset because it has a time difference resulting from a power outage. Based on current conditions, it is necessary to create a design to combine the operation of the corridor lights and the air conditioners, which can adjust the time automatically in case of power outage. The system works from the design using an Arduino Mega microcontroller 2560 and a module RTC (Real Time Clock) DS3231 as the schedule design organizer. With this design, it is to control the corridor lights and the air conditioners automatically. And can save the use of electrical energy in the corridor lighting and air conditioning.

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