Fenanda, Damara Achmad (2021) Kontrol Flow Gas Pada Pengembangan Sistem Distribusi Gas Rumah Tangga Menggunakan PLC dan Metode Fuzzy Logic. Undergraduate thesis, Institut Teknologi Sepuluh November.
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Abstract
Penyaluran gas bumi melalui pipa yang memerlukan pemantauan secara berkala untuk memastikan jalur distribusi gas bumi tersalurkan dengan baik, serta meminimalisir faktor kebocoran gas pada pipa distribusi gas yang disalurkan ke pelanggan yaitu rumah tangga. Sehingga untuk menjaga kestabilan aliran gas tetap pada range normal diperlukan sistem control pada pipa gas untuk menjaga kestabilan aliran gas tersebut.
Pada sistem control aliran gas dilengkapi dengan metode aplikasi Fuzzy Logic, yang dimana metode ini merupakan metode yang mampu menganalisa dan mengklasifikasi dari akibat suatu kejadian atau masalah yang timbul selama proses pendistribusian gas. Dari penjelasan rumusan masalah diatas, penulis ber inisiatif untuk membantu penyelesaian masalah tersebut dengan membuat prototype rancang bangun sistem operasi otomatis dengan logika fuzzy.
Penggunaan metode fuzzy logic dalam sistem Kontrol Valve Pipa Gas Pada Pengembangan Sistem Distribusi Gas Rumah Tangga Menggunakan PLC Dan Metode Fuzzy Logic dilakukan dengan memasukan seluruh jumlah nilai input aliran udara mulai dari 50-100 m^3. Pengujian sistem menggunakan aliran udara yang berasal dari kompresor. Pada nilai input aliran udara jika kurang dari 50 m^3 maka valve tidak akan terbuka, jika aliran udara melebihi 49 m^3 maka valve akan terbuka. Besaran bukaan valve tergantung dari jumlah nilai input yang terdeteksi. Apabila nilai input tergolong gas rendah yaitu sebesar 50-80 m^3 maka valve akan terbuka lebar. Ketika nilai input tergolong gas normal yaitu sebesar 60-90 m^3 maka valve akan terbuka sedang, dan jika nilai input tergolonng gas tinggi yaitu sebesar 80-100 m^3 maka valve akan terbuka sedikit. Pengujian sistem control flow gas tersebut mampu bekerja ketika nilai aliran gas melebihi 49 m^3 karena ketika nilai input aliran gas di bawah 50m^3 yang merupakan batas bawah maka sistem akan mengindikasi adanya kebocoran sehingga aliran gas tidak akan disalurkan melalui pipa distribusi. Pada aliran gas tinggi sistem control flow gas bekerja dengan optimal untuk mencegah terjadinya over flow gas dengan cara memperkecil bukaan valve sehingga aliran gas setelah melalui valve akan tetap terjaga dalam range normal.
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The distribution of natural gas through pipelines requires regular monitoring to ensure the natural gas distribution lines are channeled properly, as well as minimizing the gas leak factor in the gas distribution pipelines that are distributed to customers, namely households. So to maintain the stability of the gas flow in the normal range, a control system on the gas pipe is needed to maintain the stability of the gas flow.
The gas flow control system is equipped with a Fuzzy Logic application method, where this method is a method that can analyze and classify the consequences of an event or problem that arises during the gas distribution process. From the explanation of the problem formulation above, the author takes the initiative to help solve the problem by making a prototype of an automatic operating system design with fuzzy logic.
The use of the fuzzy logic method in the Gas Pipe Valve Control System in the Development of a Household Gas Distribution System Using PLC and the Fuzzy Logic Method is done by entering the entire number of airflow input values ranging from 50-100 m^3. Testing the system using the airflow from the compressor. At the airflow input value if it is less than 50 m^3 then the valve will not open, if the airflow exceeds 49 m^(3 )then the valve will open. The size of the valve opening depends on the number of detected input values. If the input value is classified as low gas, namely 50-80 m^3 then the valve will be wide open. When the input value is classified as normal gas, which is 60-90 m^3 then the valve will open moderately, and if the input value is classified as high gas, which is 80-100 m^3 then the valve will open slightly. The gas flow control system test can work when the gas flow value exceeds 49 m^3 because when the gas flow input value is below 50 m^3which is the lower limit, the system will indicate a leak so that the gas flow will not be channeled through the distribution pipe. At high gas flow, the gas flow control system works optimally to prevent gas overflow by minimizing the valve opening so that the gas flow after passing through the valve will be maintained within the normal range.
| Item Type: | Thesis (Undergraduate) |
|---|---|
| Uncontrolled Keywords: | Fuzzy Logic, Gas Flow, PLC, Kontrol Valve, Valve Control |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK3070 Automatic control |
| Divisions: | Faculty of Vocational > 36304-Automation Electronic Engineering |
| Depositing User: | Damara Achmad Fenanda |
| Date Deposited: | 25 Aug 2021 03:42 |
| Last Modified: | 25 Aug 2021 03:42 |
| URI: | http://repository.its.ac.id/id/eprint/89270 |
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