Model dan Penyelesaian Numerik Aliran Non-Isothermal Steady-State untuk Transmisi Gas Alam dalam Pipa - Steady-State Non-Isothermal Flow Model And Numerical Solution For Natural Gas Transmission In Pipes

Kustanti, Novani Indra (2018) Model dan Penyelesaian Numerik Aliran Non-Isothermal Steady-State untuk Transmisi Gas Alam dalam Pipa - Steady-State Non-Isothermal Flow Model And Numerical Solution For Natural Gas Transmission In Pipes. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Gas alam adalah bahan bakar fosil gas yang terdiri dari metana yang berbahaya karena sifatnya yang mudah terbakar dan menimbulkan ledakan. Salah satu cara untuk mengatasi masalah tersebut adalah dengan mendapatkan konsumen terlebih dahulu sebelum mendistribusikan gas alam, yaitu dengan sistem jaringan perpipaan. Apabila pendistribusian gas alam dilakukan dengan sistem transmisi pipa, maka perlu diperhatikan perilaku gas alam dalam pipa selama proses transportasi agar pengiriman gas alam dapat dilakukan dengan benar dan aman. Pada penelitian ini dikaji tentang model aliran gas dalam suatu saluran pipa untuk mengetahui perilaku gas dalam sistem jaringan distribusi, untuk mengembangkan solusi numerik yang dapat mengintegrasikan model matematis pada aliran gas alam ke dalam pipa di bawah kondisi stedi non-isotermal. Digunakan persamaan konservasi massa, persamaan konservasi momentum, dan persamaan keadaan gas nyata sehingga diperoleh model suhu dan tekanan. Model yang diperoleh selanjutnya diselesaikan secara numerik menggunakan metode Runge-Kutta. Kemudian hasilnya dibandingkan dengan data eksperimen pada jurnal Applied Mathematical Modeling-Steady State Non Isothermal Flow Model for Natural Gas Transmission in Pipes.
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Natural gas is a fossil fuel form of gas which consists mostly of methane which can be dangerous because of its highly flammable and explosive nature. One way to overcome these problems is to get consumers first before distributing natural gas, ie with a piping network system. If the distribution of natural gas is carried out with a pipeline transmission system, it is necessary to consider the behavior of natural gas in the pipeline during the transportation process from the production site to consumers so that natural gas shipments can be carried out correctly and safely. This Final Project examines the model of gas flow in a pipeline to determine the behavior of gases in a distribution network system, to develop numerical solutions that can integrate mathematical models into the flow of natural gas into pipes under non-isothermal stedi conditions. Used mass conservation equations, momentum conservation equations, and real gas state equations to obtain a temperature and pressure model. The model obtained is then solved numerically using the Runge-Kutta method. Then the results were compared with experimental data in the journal Model of Mathematical Modeling Applied-Steady State Non-Isothermal Flow Model for Natural Gas Transmission on Pipes.

Item Type: Thesis (Undergraduate)
Additional Information: RSMa 518 Kus m-1 3100018076409
Uncontrolled Keywords: Gas Alam, Transmisi Pipa, Non Isothermal, Steady State, Runge-Kutta
Subjects: T Technology > TJ Mechanical engineering and machinery > TJ935 Pipe--Fluid dynamics. Tubes--Fluid dynamics
T Technology > TP Chemical technology > TP350 Natural gas--Drying.
Divisions: Faculty of Mathematics and Science > Mathematics > 44201-(S1) Undergraduate Thesis
Depositing User: Novani Indra Kustanti
Date Deposited: 09 Jan 2019 03:12
Last Modified: 11 Feb 2021 07:52
URI: http://repository.its.ac.id/id/eprint/58659

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