Journal of Applied Civil Engineering and Infrastructure Technology (JACEIT)
Ruang lingkup Journal of Applied Civil Engineering and Infrastructure Technology (JACEIT) adalah : 1. Struktur mencakup penerapan mekanika teknik seperti pada penerapan struktur beton, baja, kayu, dan komposit. Termasuk penerapan dalam rekayasa gempa suatu bangunan gedung dan jembatan. 2. Manajemen Konstruksi. Bidang manajemen konstruksi mencakup dalam penerapan optimalisasi estimasi biaya, penjadwalan proyek, manajemen proyek, analisa dokumen tender/lelang, penentuan kelayakan ekonomi suatu proyek, semua hal yang berkaitan dengan hukum dan perizinan bangunan hingga pengorganisasian pekerjaan di lapangan sehingga diharapkan bangunan tersebut selesai tepat waktu. 3. Material Maju. Bidang material maju merupakan suatu terapan inovasi untuk mencari material konstruksi bahan bangunan yang memiliki keterbaruan baik dari segi keawetan, keringanan, kekuatan/mutu, dan keekonomisan yang mampu diterapkan di dalam suatu konstruksi bangunan sipil. 4. Hidroteknik dan Sumber Daya Air. Bidang hidroteknik dan sumber daya air mencakup bidang teknik sipil keairan seperti penerapan hidrologi dalam memprediksi perubahan iklim dan cuaca, menganalisa aliran permukaan dan air bawah tanah serta menganalisa besaran muatan sedimen dan hidrograf banjirnya serta permasalahan-permasalahannya. Untuk penerapan hidrolika dalam menganalisa bangunan keairan seperti perencanaan bangunan waduk, embung, kolam retensi, bendung, bendungan, saluran drainase, bangunan dan saluran irigasi, bangunan pelindung sungai, normalisasi sungai. Sedangkan bidang sumber daya air mencakup penerapan optimalisasi dan manajemen sumber daya air untuk diterapkan di pertanian, perkebunan dan kehutanan, serta dalam menganalisa konservasi air dan tanah serta bangunan konservasinya. 5. Bidang geoteknik ini mencakup struktur dan sifat berbagai macam tanah dan batuan dalam menopang suatu bangunan yang akan berdiri di atasnya. Cakupannya dapat berupa investigasi lapangan yang merupakan penyelidikan keadaan-keadaan tanah suatu daerah, penyelidikan laboratorium serta perencanaan konstruksi tanah dan batuan, seperti: timbunan (embankment), galian (excavation), terowongan tanah lunak (soft soil tunnel), terowongan batuan (rock/mountain tunnel), bendungan tanah/batuan (earth dam, rock fill dam), dan lain-lain. 6. Bidang transportasi mencakup sistem transportasi dalam perencanaan dan pelaksanaannya. Cakupan bidang ini antara lain konstruksi dan pengaturan jalan raya, jalan rel, konstruksi bandar udara, terminal, stasiun, pelabuhan dan manajemennya. 7. Teknik Lingkungan. Bidang teknik lingkungan mencakup permasalahan-permasalahan dan isu lingkungan. Cakupan bidang ini antara lain penyediaan sarana dan prasarana air bersih, pengelolaan limbah dan air kotor, pencemaran sungai, pencemaran air tanah, polusi suara dan udara hingga teknik penyehatan serta kualitas air. 8. Pemetaan / Geomatika/ Penginderaan Jauh. Bidang ini mencakup penerapan suatu pemetaan hasil ukur tanah terhadap pemecahan suatu permasalahan kondisi geografis muka bumi baik itu melalui citra satelit, dan penginderaan jauh. Salah satunya dengan penerapan analisa Sistem Informasi Geografis dan perangkat aplikasi lainnya. 9. Rekayasa Teknologi Infrastruktur. Bidang ini merupakan penerapan keilmuan ketekniksipilan dalam merancangbangun infrastruktur dan penerapan teknologi infrastruktur dalam suatu pembangunan yang berkesinambungan yang berwawasan lingkungan.
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<![CDATA[Analysis of Types of Flexible Pavement Damage Using the Pavement Condition Index Method ]]>
<![CDATA[Novianto, Dicky]]>;
<![CDATA[Rulhendri]]>;
<![CDATA[Chayati, Nurul]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.562
<![CDATA[Roads are land transportation infrastructure that is very important in facilitating economic relations and other social activities. If road damage occurs, it will not only result in the obstruction of other economic and social activities but can also cause accidents for road users. The aim of this research is to explain the types of damage to the surface layer of flexible pavement and to find out the index value of the pavement condition index for Jalan Kreteg-Lebak Jaya based on the PCI (Pavement Condition Index) method so that the results can be used in preparing road maintenance programs. The results of this research in segment 1 showed 4 types of damage, namely edge cracks, patches, holes, weathering, and loose granules, with a PCI value of 22, very poor pavement conditions using this type of treatment. reconstruction/recycling. In segment 2, there were 4 types of damage, namely edge cracks, patches, holes, weathering, and loose granules with a PCI value of 26 in poor pavement conditions using the type of reconstruction or recycling treatment. In segment 3, there were 3 types of damage: holes, slip cracks, weathering, and loose granules with a PCI value of 46. Fair pavement conditions using reconstruction or recycling treatment in segment 4, there were 4 types of damage, namely crocodile skin cracks, edge cracks, holes, weathering, and loose granules, with a PCI value of 29 for poor pavement conditions using the type of reconstruction or recycling treatment.]]>
<![CDATA[Studi Penentuan Tarif untuk Buy the Service Trans Pakuan Koridor 1 dengan Metode Ability to Pay dan Willingness to Pay ]]>
<![CDATA[Adani, Ahmad Kafa]]>;
<![CDATA[Murtejo, Tedy]]>;
<![CDATA[Chayati, Nurul]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.567
<![CDATA[Minat masyarakat Kota Bogor menggunakan layanan transportasi massal BisKita Trans Pakuan semakin meningkat, ditandai dengan terus meningkatnya load faktor pada bulan September 2022 sudah sampai 101%. Besarnya load faktor membuktikan bahwa masyarakat Kota Bogor masih percaya terhadap angkutan umum. Wali Kota Bogor Bima Arya Sugiarto mengatakan, Badan Pengelola Transportasi Jabodetabek (BPTJ) Kementerian Perhubungan telah meminta Pemerintah Kota Bogor untuk melakukan kajian Ability to Pay (ATP) dan Willingness to Pay (WTP) sebelum menetapkan tarif. Metode yang digunakan adalah metode Ability to Pay (ATP) dan Willingness to Pay (WTP) yang bertujuan untuk menganalisis karakteristik pengguna BTS Trans pakuan koridor 1 dan menganalisis tarif berdasarkan analisis ATP dan WTP. Hasil analisis ATP dan WTP menunjukan bahwa analisis penentuan tarif BTS Trans Pakuan koridor 1 dengan metode Ability to Pay (ATP) dan Willingness to Pay (WTP) didapat nilai ATP sebesar Rp3.920 dan nilai WTP sebesar Rp4.155, dimana hasil ATP<WTP. Hal ini memungkinkan terjadi bagi pengguna yang mempunyai penghasilan relatif rendah tetapi utilitas terhadap jasa tersebut sangat tinggi, sehingga keinginan pengguna untuk membayar jasa tersebut cenderung lebih dipengaruhi oleh utilitas. Untuk penetapan tarif yang layak untuk saat ini adalah sebesar Rp4.038. Survei nilai headway rata-rata adalah 6,54 menit, dimana hasil tersebut telah sesuai dengan standar penilaian ideal 5-10 menit. Prioritas paling tinggi dalam pelayanan Biskita Trans Pakuan koridor 1 adalah aspek keteraturan, diikuti dengan aspek kenyamanan.]]>
<![CDATA[Evaluasi Response Time Transportation Emergency dalam Bencana Kebakaran di Kecamatan Bogor Tengah ]]>
<![CDATA[Nugraha, Adrianto Fahrizal]]>;
<![CDATA[Murtedjo, Tedy]]>;
<![CDATA[Alimuddin]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.592
<![CDATA[Bogor City spans 11,138 hectares with a population density of 9,548.00 people/km². The densest population resides in Central Bogor District, impacting fire risk. Over 2019-2022, there were 296 fire incidents, 15% occurring in Central Bogor District. The study aims to assess emergency car response times during fires in this district. Using qualitative descriptive methods, interviews and analysis per PERMENDAGRI Regulation No. 114 of 2018 were employed. Central Bogor District falls within the Emergency Management Zone (WMK) in Sukasari, Yasmin, and Cibuluh sectors due to being within a 7.5 km radius reachable within <15 minutes. The response time rate hit 100% out of 12 incidents in 2022, aligning with PERMENDAGRI Regulation No. 114 of 2018. Average speed is 60-80 km/h, dropping to 40 km/h during congestion. Sectors have efficient night routes. DISHUB's road network performance evaluation reveals V/C ratios of 0.54 and 0.48 (holidays) on Jl. Brigjen Saptadji Hadiprawira, Yasmin (holidays), and Jl. Raya Padjajaran 2, Sukasari. Cibuluh sector remains unaffected, enabling early fire disaster management.]]>
<![CDATA[Studi Perencanaan Fasilitas Integrasi Moda Pada Terminal Baranangsiang Kota Bogor ]]>
<![CDATA[Amalia Fajar, Risma]]>;
<![CDATA[Murtedjo, Tedy]]>;
<![CDATA[Rulhendri]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.608
<![CDATA[Transportation mode shift is a node that connects various public transportation into a network. If switching between these modes of transportation can be designed to be easier, faster, and more convenient, then the integration and flexibility of the network as a whole will increase. This study aims to evaluate, analyze and then plan the needs of modal integration facilities based on SPM. identify the condition of existing modal integration facilities at the current terminal, analyze the level of willingness, satisfaction and interest according to the perceptions of transport passengers towards the existing modal integration facilities at Baranangsiang Terminal, and obtain values from respondents on modal integration facilities that are needed or have not been fulfilled at Baranangsiang Terminal Bogor city. This study uses a descriptive method with a quantitative approach. The results of this study are that the Bogor City Baranangsiang Terminal from January to June 2023 has reached 13,490 passengers, which on average reaches 2,248 people per day. Based on the aspect of satisfaction seen from the willingness of respondents to fill out the questionnaire, it was found that the lowest level of satisfaction was pedestrian facilities, lighting, trash cans, the presence of bicycle lanes, disability lanes and signs in the terminal. This aspect of interest is considered very important for terminal users.]]>
<![CDATA[Inovasi Beton Ramah Lingkungan Dengan Pemanfaatan Limbah Kaca dan Plastik PET ]]>
<![CDATA[Ramadhan, Deni]]>;
<![CDATA[Wahyudi, Ismail]]>;
<![CDATA[Afiah, Alfiana]]>;
<![CDATA[Arcana, Gusti Putu Febri]]>;
<![CDATA[Rizky, Muhammad]]>;
<![CDATA[Istanto, Kelik]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.675
<![CDATA[Nowadays, the use items made from glass and plastic has increased, causing accumulation. One of them is Bakung landfill in Bandar Lampung which accommodates 1,000 tons per day. Accumulating glass and plastic waste has caused various environmental problems. This research was carried out as form of technological innovation and effort to preserve environment due to this waste. The research purpose is finding environmentally friendly concrete formula by substituting glass waste and PET plastic but have characteristics that comply with SNI standards. Each material that makes up the concrete is tested for its characteristics so that normal concrete mix design can be carried out. Glass waste and PET plastic are substituted at 10%, 15%, and 25% into coarse and fine aggregate formulations in normal concrete formula, thereby creating variations in test specimen. The concrete sample has made in cube with dimensions of 15 x 15 x 15 cm. Concrete compressive strength tests were carried out at 7, 14, 21 and 28 days. Compressive results strength test showed that variations in substitute materials in concrete have effect on resulting compressive strength. Concrete test results with 10% and 15% substitution have compressive strength values that was close to each other and higher than 25% substitution. Even though the two compositions have close compressive strength values, they have different standard deviations. The standard deviation values for 10% and 15% substitution have 35.9913 and 23.1299. So, concrete with 15% substitution composition was the most optimal composition because it showed most dominant advantage among others.]]>
<![CDATA[Daur Ulang Limbah Plastik Polyethylene Terephthalate (PET) dan Abu Terbang (Fly Ash) Menjadi Paving Block ]]>
<![CDATA[Lestari Riyandini, Vina]]>;
<![CDATA[Sawir, Hendri]]>;
<![CDATA[Ilham, Syukri]]>
<![CDATA[ Journal of Applied Civil Engineering and Infrastructure Technology Vol 5 No 1 (2024): Agustus 2024 ]]>
Publisher : <![CDATA[Indonesian Society of Applied Science ]]>
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DOI: 10.52158/jaceit.v5i1.754
<![CDATA[Plastic waste that was disposed of carelessly into the environment causes side effects, namely for groundwater, and was difficult for the soil to decompose, even for hundreds of years. Meanwhile, fly ash has the potential to pollute rivers and seas which were the center of life for coastal communities. Therefore efforts were made to utilize this waste, one of which was in the manufacture of paving blocks. Paving block was a means of transportation that was commonly used in road pavements. This study aims to utilize PET and fly ash plastic waste and determine whether the resulting paving blocks meet standards. This study used a simple method, namely heating PET plastic using a paint-fired gas stove mixing fly ash, and then molding it with the composition of each material, namely 0,5 kg (plastic): 1,5 kg (fly ash), 1 kg (plastic): 1 kg (fly ash), and 1,5 kg (plastic): 0,5 kg (fly ash). The resulting paving blocks were tested for quality according to SNI 03-0691-1996 standards. Based on the research results, the best paving block was obtained with a mixture composition of 1 kg (plastic): 1 kg (fly ash) which has a compressive strength value that almost meets the standard, which was 8.30 MPa and a water absorption capacity of 15.20 %.]]>
