Arif, Miftakhul (2007) Modifikasi Sistem Ballast Dari Operasi Secara Manual Ke Operasi Secara Remote Sesuai Dengan Aturan ABS Pada Sistem Ballast MV. Sinar Jambi. Other thesis, Institut Teknologi Sepuluh Nopember Surabaya.
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Abstract
MV. Sinar Jambi merupakan kapal yang dibangun menggunakan aturan ABS. Untuk mendapatkan sertifikat setiap sistem pada kapal harus sesuai dengan aturan ABS. Sebagai salah satu klas, ABS mensyaratkan pada setiap kapal harus mempunyai sistem ballast dengan katup ballast terletak pada masing-masing tangki ballast. Hal ini dilakukan untuk pencegahan mixing tank proses ketika terdapat kebocoran pada pipa-pipa ballast. Mixing tank proses akan mempengaruhi pada stabilitas dart kapal karena air akan mengalir bebas dari tangki ballast satu ke tangki ballast yang lain. Dalam mendesain alternative ballast sistem (Branch Type) MV Sinar Jambi yang sesuai dengan aturan ABS, menggunakan pneumatik sistem atau elektrik sistem yang dapat dioperasikan dari engine control room. Dalam perancangan pneumatic sistem akan memberikan konsekuensi pada pemilik kapal untuk mengeluarkan modal untuk membeli peralatan peralatan yang akan digunakan pada pneumatik sistem. Hal ini juga berlaku pada elektrik sistem. Peralatan-peralatan pneumatik meliputi actuator, katup solenoid, solenoid coil, katup ballast yang bias dioperasikan dengan pneumatik actuator dan peralatan lainnya. Peralatan-peralatan electrik meliputi motor listrik, kabel, katup ballast yang bisa dioperasikan dengan motor listrik dan peralatan lainnya. Dari analisa teknik dan data, maka dapat diketahui bahwa pneumatik mempunyai kelebihan antara lain murah, perawatan mudah, mudah mengoperasikannya dan cepat mengatasi gangguan sistem, dan aman. Elektrik sistem juga mempunyai kelebihan lebih rendah power yang digunakan, dapat dioperasikan secara manual hila terjadi gangguan sistem. Dengan analisa diatas maka pneumatik sistem merupakan sis tern yang cocok pada ballast sistem dilihat dart segi lingkungan, modal yang dibutuhkan dan dari segi operasi
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MV. Sinar Jambi is a ship built using ABS rules. To obtain a certificate every system on a ship must comply with ABS regulations. As one of the classes, ABS requires that every ship must have a ballast system with a ballast valve located in each ballast tank. This is done to prevent mixing process tanks when there are leaks in the ballast pipes. The mixing tank process will affect the stability of the ship's dart because water will flow freely from one ballast tank to another. In designing an alternative ballast system (Branch Type) for MV Sinar Jambi that complies with ABS regulations, it uses a pneumatic system or an electric system that can be operated from the engine control room. In designing a pneumatic system, there will be consequences for the ship owner to spend capital to purchase equipment that will be used in the pneumatic system. This also applies to electrical systems. Pneumatic equipment includes actuators, solenoid valves, solenoid coils, ballast valves which can be operated with pneumatic actuators and other equipment. Electrical equipment includes electric motors, cables, ballast valves that can be operated with electric motors and other equipment. From technical and data analysis, it can be seen that pneumatics has advantages including being cheap, easy to maintain, easy to operate and quickly overcome system problems, and safe. The electric system also has the advantage of lower power consumption, it can be operated manually if a system problem occurs. Based on the analysis above, the pneumatic system is a suitable system for ballast systems from an environmental perspective, capital required and operational perspective.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSSP 623.81 Ari m-1 2007 |
| Uncontrolled Keywords: | Balas, remote, abs; Reply, remote, abs |
| Subjects: | V Naval Science > VM Naval architecture. Shipbuilding. Marine engineering > VM1 Ballast (Ships) V Naval Science > VM Naval architecture. Shipbuilding. Marine engineering > VM365 Remote submersibles. Autonomous vehicles. |
| Divisions: | Faculty of Marine Technology (MARTECH) > Naval Architecture and Shipbuilding Engineering > 36201-(S1) Undergraduate Thesis |
| Depositing User: | EKO BUDI RAHARJO |
| Date Deposited: | 31 May 2024 02:59 |
| Last Modified: | 31 May 2024 02:59 |
| URI: | http://repository.its.ac.id/id/eprint/108015 |
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