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Analisis Geometrik Landas Pacu Bandar Udara Mutiara Sis Al Jufri Femilia Pabimbin Salle; Latif Budi Suparma; Suryo Hapsoro Tri Utomo
Journal of Civil Engineering and Planning (JCEP) Vol 2 No 2 (2021)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v2i2.5339

The increase in population and economy is in line with the demand for movement to palu area and also from Palu to other areas using air transportation. Mutiara Sis Al Jufri Airport is one of the gateways to Central Sulawesi. Therefore, runway pavements should be able to receive the largest planned aircraft from the farthest planned route. This study aims to analyze the geometric development of runway pavement of Mutiara Sis Al Jufri Airport. The process of geometric analysis of runways using the ICAO (International Civil Aviation Organization) method using Boeing 737-900 ER as a planned aircraft, the results of the analysis were then evaluated against the existing geometric conditions of runway pavement Mutiara Sis Al Jufri Airport. Based on the results of the analysis obtained the results of the length of the runway with boeing 737-900 ER planned aircraft of 3019 m. Therefore, it is necessary to development on the runway of Mutiara Sis Al Jufri Airport of 769 m in order to serve the plan aircraft optimally without any restrictions on the weight of the aircraft. At runway width, runway shoulder, runway strip, RESA and stopway do not need to be developed because it has met ICAO rules.

Analisis Pengembangan Geometrik Runway Bandar Udara Fatmawati Soekarno Kota Bengkulu Sheilla Silvia; Latif Budi Suparma; Suryo Hapsoro Tri Utomo
Journal of Civil Engineering and Planning (JCEP) Vol 2 No 2 (2021)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v2i2.5201

Increasing economic growth requires the organizers of Fatmawati Airport to develop airside facilities. Along with these developments, it is deemed necessary to analyze the development of flexible pavement geometry in existing and future conditions, considering the runway as a place for several flight activities to occur. For this reason, the runway construction itself is capable of receiving and carrying aircraft loads that are appropriately planned. Therefore, this study aims to analyze the geometric development of flexible pavement on the Fatmawati Airport runway and the existing condition of the flexible pavement on the Fatmawati Airport runway, whether it can serve traffic loads until 2041. Analysis of geometric development on the runway is processed using the International Civil Aviation Organization (ICAO). The geometric development of the flexible pavement obtained is then compared with the existing conditions of Fatmawati Airport, Bengkulu City. Based on the runway analysis of Fatmawati Airport, the results of the geometric development of the International Civil Aviation Organization (ICAO) International Civil Aviation Organization (ICAO) rules for runway development should be lengthened by 209 m. These results indicate that the flexible pavement on the Fatmawati Airport runway cannot increase the aircraft load. Bengkulu traffic until 2041, so development is needed. However, the width of the runway has met the classification of 45 m, so there is no need for development.

Evaluasi Tebal Perkerasan Kaku Apron Bandara Mutiara Sis Al-Jufri Aprilia Wulandari; Suryo Hapsoro Tri Utomo; Suprapto Siswosukarto
Journal of Civil Engineering and Planning (JCEP) Vol 3 No 1 (2022)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v3i1.5816

Bandar Udara Mutiara Sis Al Jufri merupakan salah satu bandara yang mengalami peningkatan permintaan akan lalu lintas udara. Adanya permintaan perjalanan udara yang meningkat setiap tahunnya diharapkan juga selaras dengan kinerja pada fasilitas sisi udara Bandar Udara tersebut sehingga dapat melayani peningkatan permintaan yang terjadi, khususnya pada apron. Penelitian ini dimaksudkan bertujuan untuk mengevaluasi perkerasan kaku apron Bandara Mutiara Sis Al-Jufri Palu serta memperoleh hasil perhitungan konstruksi perkerasan apron yang direncanakan agar mampu melayani lalu lintas pesawat sesuai dengan pertumbuhan lalu lintas pesawat yang direncanakan dengan menggunakan pesawat tipe Boeing 737-900ER sebagai pesawat rencana. Evaluasi perkerasan kaku apron dilakukan dengan menggunakan metode FAA (Federal Aviation Administration) dengan pesawat Boeing 737-900 ER sebagai pesawat rencana. Berdasarkan hasil evaluasi tebal perkerasan kaku untuk kondisi eksisting menggunakan pesawat rencana tipe Boeing 737-900 ER diperoleh tebal slab beton sebesar 36 cm dan subbase sebesar 15 cm, sedangkan tebal perkerasan untuk 20 tahun mendatang diperoleh tebal slab beton sebesar 41 cm dan subbase 15 cm. Sehingga perlu dilakukan penambahan pada tebal slab beton sebesar 5 cm sehingga dapat memikul beban lalu lintas pesawat untuk 20 tahun mendatang. Sedangkan untuk subbase course tidak perlu dilakukan konstruksi kembali sehingga perkerasan tersebut dapat melayani lalu lintas pesawat untuk 20 tahun mendatang.

Analisis Pengembangan Geometrik Runway Bandar Udara Fatmawati Soekarno Kota Bengkulu Sheilla Silvia; Latif Budi Suparma; Suryo Hapsoro Tri Utomo
Journal of Civil Engineering and Planning (JCEP) Vol. 2 No. 2 (2021)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v2i2.5201

Increasing economic growth requires the organizers of Fatmawati Airport to develop airside facilities. Along with these developments, it is deemed necessary to analyze the development of flexible pavement geometry in existing and future conditions, considering the runway as a place for several flight activities to occur. For this reason, the runway construction itself is capable of receiving and carrying aircraft loads that are appropriately planned. Therefore, this study aims to analyze the geometric development of flexible pavement on the Fatmawati Airport runway and the existing condition of the flexible pavement on the Fatmawati Airport runway, whether it can serve traffic loads until 2041. Analysis of geometric development on the runway is processed using the International Civil Aviation Organization (ICAO). The geometric development of the flexible pavement obtained is then compared with the existing conditions of Fatmawati Airport, Bengkulu City. Based on the runway analysis of Fatmawati Airport, the results of the geometric development of the International Civil Aviation Organization (ICAO) International Civil Aviation Organization (ICAO) rules for runway development should be lengthened by 209 m. These results indicate that the flexible pavement on the Fatmawati Airport runway cannot increase the aircraft load. Bengkulu traffic until 2041, so development is needed. However, the width of the runway has met the classification of 45 m, so there is no need for development.

Analisis Geometrik Landas Pacu Bandar Udara Mutiara Sis Al Jufri Femilia Pabimbin Salle; Latif Budi Suparma; Suryo Hapsoro Tri Utomo
Journal of Civil Engineering and Planning (JCEP) Vol. 2 No. 2 (2021)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v2i2.5339

The increase in population and economy is in line with the demand for movement to palu area and also from Palu to other areas using air transportation. Mutiara Sis Al Jufri Airport is one of the gateways to Central Sulawesi. Therefore, runway pavements should be able to receive the largest planned aircraft from the farthest planned route. This study aims to analyze the geometric development of runway pavement of Mutiara Sis Al Jufri Airport. The process of geometric analysis of runways using the ICAO (International Civil Aviation Organization) method using Boeing 737-900 ER as a planned aircraft, the results of the analysis were then evaluated against the existing geometric conditions of runway pavement Mutiara Sis Al Jufri Airport. Based on the results of the analysis obtained the results of the length of the runway with boeing 737-900 ER planned aircraft of 3019 m. Therefore, it is necessary to development on the runway of Mutiara Sis Al Jufri Airport of 769 m in order to serve the plan aircraft optimally without any restrictions on the weight of the aircraft. At runway width, runway shoulder, runway strip, RESA and stopway do not need to be developed because it has met ICAO rules.

Evaluasi Tebal Perkerasan Kaku Apron Bandara Mutiara Sis Al-Jufri Aprilia Wulandari; Suryo Hapsoro Tri Utomo; Suprapto Siswosukarto
Journal of Civil Engineering and Planning (JCEP) Vol. 3 No. 1 (2022)
Publisher : Program Studi Sarjana Teknik Sipil Universitas Internasional Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37253/jcep.v3i1.5816

Bandar Udara Mutiara Sis Al Jufri merupakan salah satu bandara yang mengalami peningkatan permintaan akan lalu lintas udara. Adanya permintaan perjalanan udara yang meningkat setiap tahunnya diharapkan juga selaras dengan kinerja pada fasilitas sisi udara Bandar Udara tersebut sehingga dapat melayani peningkatan permintaan yang terjadi, khususnya pada apron. Penelitian ini dimaksudkan bertujuan untuk mengevaluasi perkerasan kaku apron Bandara Mutiara Sis Al-Jufri Palu serta memperoleh hasil perhitungan konstruksi perkerasan apron yang direncanakan agar mampu melayani lalu lintas pesawat sesuai dengan pertumbuhan lalu lintas pesawat yang direncanakan dengan menggunakan pesawat tipe Boeing 737-900ER sebagai pesawat rencana. Evaluasi perkerasan kaku apron dilakukan dengan menggunakan metode FAA (Federal Aviation Administration) dengan pesawat Boeing 737-900 ER sebagai pesawat rencana. Berdasarkan hasil evaluasi tebal perkerasan kaku untuk kondisi eksisting menggunakan pesawat rencana tipe Boeing 737-900 ER diperoleh tebal slab beton sebesar 36 cm dan subbase sebesar 15 cm, sedangkan tebal perkerasan untuk 20 tahun mendatang diperoleh tebal slab beton sebesar 41 cm dan subbase 15 cm. Sehingga perlu dilakukan penambahan pada tebal slab beton sebesar 5 cm sehingga dapat memikul beban lalu lintas pesawat untuk 20 tahun mendatang. Sedangkan untuk subbase course tidak perlu dilakukan konstruksi kembali sehingga perkerasan tersebut dapat melayani lalu lintas pesawat untuk 20 tahun mendatang.

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