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All Journal MESA (Teknik Mesin, Teknik Elektro, Teknik Sipil, Teknik Arsitektur) Jurnal Publikasi Teknik Informatika (JUPTI) Konstruksi: Publikasi Ilmu Teknik, Perencanaan Tata Ruang dan Teknik Sipil Jurnal Kolaborasi Pengabdian Masyarakat Fakultas Ilmu Administrasi
Sugeng Sutikno
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Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Mechanical Engineering Social Sciences

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Kajian Sistem Tata Air dengan Menerapkan Parit Resapan di Desa Kamarung Kecamatan Pagaden Yulianto, Yusup; Sugeng Sutikno; Adi Subandi; Tubagus Nur Hidayatulloh
MESA (Teknik Mesin, Teknik Elektro, Teknik Sipil, Teknik Arsitektur) Vol. 4 No. 2 (2020): MESA (Teknik Mesin, Teknik Elektro, Teknik Sipil, Teknik Arsitektur)
Publisher : FAKULTAS TEKNIK UNIVERSITAS SUBANG

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Abstract

Selama manusia berkembang, pembangunan terus digalakan di berbagai bidang. Yang bertujuan untuk mencapai keadaan yang lebih baik dari keadaan sebelumnya. Secara umum pembangunan harus memperhatikan hal penting yang mendukung prosesnya. Seringkali dalam pelaksanaan pembangunan suatu bidang, terdapat bidang lain yang terimbas dan mungkin dirugikan. Contoh yang paling sering dan dapat dirasakan serta dilihat langsung adalah pembangunan infrastruktur pada suatu pemukiman dan pusat perekonomian seperti pasar, yang bersinggungan dengan infrastruktur jalan dan drainase. Dimana karena adanya keterbatasan seperti ketersediaan lahan, infrastruktur drainase tidak memenuhi standar dan fungsinya menjadi tidak maksimal. Apabila pada suatu daerah yang sistem drainasenya terganggu atau tidak bisa bekerja secara maksimal, maka daerah tersebut akan berpotensi mengalami genangan atau bahkan lebih buruk lagi terjadi banjir. Dan ketika suatu daerah sudah mengalami banjir, maka segala bidang kegiatan di daerah tersebut akan ikut terganggu. Salah satu metode yang bisa menjadi cara untuk mengurangi potensi banjir adalah dengan retensi. Dengan meretensi air hujan sebelum masuk ke sungai sebagai aliran permukaan, diharapkan sungai tidak terlalu menampung beban terlalu besar. Salah satu bangunan retensi yang bisa diaplikasikan adalah parit resapan.
Proses Produksi Corrugated Concrete Sheet Pile (CCSP) Di Jalur II B PT. Wijaya Karya Beton TBK. Pabrik Produk Beton Subang Eliya Sari; Sugeng Sutikno
MESA (Teknik Mesin, Teknik Elektro, Teknik Sipil, Teknik Arsitektur) Vol. 6 No. 2 (2022): MESA (Teknik Mesin, Teknik Elektro, Teknik Sipil, Teknik Arsitektur)
Publisher : FAKULTAS TEKNIK UNIVERSITAS SUBANG

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Abstract

PT Wijaya Karya Beton Tbk. Pabrik Produk Beton Subang merupakan perusahaan yang bergerak di bidang industri beton pracetak. Salah satu produk yang dihasilkan adalah Corrugated Concrete Sheet Pile (CCSP) yaitu elemen struktural beton bertulang dengan profil bergelombang yang membentuk dinding yang dapat menahan tekanan tanah. Tujuan dari penelitian ini adalah untuk memberikan gambaran secara detail mengenai proses produksi CCSP, kapasitas produksi dan produktivitas yang dihasilkan di PT Wijaya Karya Beton Tbk. Pabrik Produk Beton Subang. Metode yang digunakan dalam penelitian ini adalah studi kasus dengan melakukan observasi langsung terhadap proses produksi CCSP di PT Wijaya Karya Beton Tbk. Pabrik Produk Beton Subang. Proses produksi beton pracetak produk CCSP di PT Wijaya Karya Beton Tbk. Pabrik Produk Beton Subang melibatkan beberapa tahapan yaitu tahap desain, tahap produksi yang meliputi: persiapan produksi, pemasangan cetakan dan perakitan tulangan, pemasangan strand, stressing, pengecoran, perawatan beton hingga pembukaan cetakan, serta tahap pasca produksi yang dilakukan secara sistematis dan terstruktur dengan mengikuti prosedur dan standar kualitas yang ketat. Kapasitas produksi jalur II B dalam satu line memproduksi 5 unit produk CCSP per hari yang membutuhkan waktu siklus sebesar 21 jam dengan produktivitas 4,2 jam/produk. Output yang dihasilkan sebanyak 5 produk/hari dan menghasilkan produktivitas dengan volume sebesar 6,6 m3/siklus dan produktivitas pekerja sebesar 0,942 m3/siklus/orang. Waktu siklus produksi dapat menggambarkan tingkat produktivitas dari pabrik, dimana semakin besar waktu yang dibutuhkan untuk proses produksi menunjukan tingkat produktivitas harian yang rendah.
Analisis Percepatan Proyek Dengan Metode Pertukaran Waktu Dan Biaya Sugeng Sutikno; Endang Setiadi; Sahur AR
Jurnal Publikasi Teknik Informatika Vol 2 No 2 (2023): Mei: Jurnal Publikasi Teknik Informatika
Publisher : Pusat Riset dan Inovasi Nasional

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55606/jupti.v2i2.1931

Abstract

Problems in construction projects can occur in various ways, the cause is due to increased implementation time and increased implementation costs. This is caused by several factors, namely the influence of weather, lack of manpower, inadequate or disrupted material supply and insufficient equipment used, as well as the owner himself. Work delays can be anticipated by accelerating the implementation and accelerating project completion with good planning. An alternative commonly used to support the acceleration of activities is to increase working hours and labor, so that it affects the total cost of the project. To speed up the duration of the project, you can use the time and cost exchange method by analyzing the relationship between activities and the duration of each activity, then calculating the crashing program for each alternative, namely adding working hours by 4 working hours, adding 25% of the workforce to get the value cost slope, and compressed project duration starting from the lowest cost slope value for activities that are on the critical path. The result is that the addition of labor is more profitable in terms of costs because there is an increase in total costs in a relatively small amount compared to the addition of working hours, while in terms of time the addition of working hours is more time efficient.
Edukasi Sumur Resapan Air Limbah Rumah Tangga Untuk Lingkungan Sehat Di RW 02 Desa Marengmang Kecamatan Kalijati Subang Ernawan, Deny; Sugeng Sutikno; Eliya Sari
Jurnal Kolaborasi Pengabdian Masyarakat Fakultas Ilmu Administrasi Volume 3 Issue 1, Juni 2025
Publisher : Fakultas Ilmu Administrasi Universitas Subang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37950/jkpemasfia.v3i1.2334

Abstract

Abstrak Kebersihan lingkungan adalah keadaan di mana lingkungan bebas dari kotoran, termasuk di dalamnya debu, sampah, dan bau. Lingkungan yang bersih dapat menjadikan kita terhindar dari berbagai macam penyakit. Dalam menjaga kebersihan lingkungan hidup tidak hanya diri kita sendiri, tetapi juga mencakup semua elemen yang ada di masyarakat. Kurangnya kesadaran masyarakat terhadap lingkungan sangat familiar untuk saat ini. Kebanyakan dari mereka berfikir secara parsial dan hanya ingin menguntungkan diri sendiri, seperti masalah pembuangan sampah yang tidak pada tempatnya, pembuangan limbah pabrik, polusi udara, pencemaran air, dan lain-lain. Kasus-kasus yang menyangkut masalah kebersihan dalam lingkungan hidup yang selalu mempengaruhi kesehatan masyarakat setiap tahunnya selalu meningkat. Masyarakat juga perlu meningkatkan lingkungan hidup dan bisa terselenggaranya kegiatan pembangunan yang dapat membantu daya lahan secara serasi dan berkelanjutan. Untuk itu pemberian penyuluhan terkait edukasi pembuatan sumur resapan diharapkan dapat menjadi upaya menyadarkan masyarakat akan pentingnya kesehatan lingkungan sekaligus memberikan pengetahuan bagaimana cara merealisasikannya. Pendekatan ini diharapkan untuk memberdayakan potensi lokal, memupuk rasa milik diri, meningkatkan nilai manfaat, dan menjamin keberlanjutan. Kata kunci: Kesehatan Masyarakat, Standar Kesehatan, Sumur Resapan   Abstract Environmental cleanliness is a condition where the environment is free from dirt, including dust, garbage, and odors. A clean environment can make us free from various diseases. Keeping the environment clean is not only for ourselves, but also for all elements of society. The lack of public awareness of the environment is very familiar today. Most of them think partially and only want to benefit themselves, such as the problem of improper waste disposal, factory waste disposal, air pollution, water pollution, and others. Cases of environmental hygiene problems that always affect public health are increasing every year. The community also needs to improve the environment and be able to carry out development activities that can help the earth's energy in a harmonious and sustainable manner. For this reason, providing education related to infiltration well construction is expected to be one of the efforts to increase public awareness of the importance of environmental health and provide knowledge on how to make it happen. This approach is expected to empower local potential, foster a sense of belonging, increase the value of benefits, and ensure sustainability. Keywords: Public Health, Health Standards, Infiltration Wells Abstract Environmental cleanliness is a condition where the environment is free from dirt, including dust, garbage, and odors. A clean environment can make us free from various diseases. Keeping the environment clean is not only for ourselves, but also for all elements of society. The lack of public awareness of the environment is very familiar today. Most of them think partially and only want to benefit themselves, such as the problem of improper waste disposal, factory waste disposal, air pollution, water pollution, and others. Cases of environmental hygiene problems that always affect public health are increasing every year. The community also needs to improve the environment and be able to carry out development activities that can help the earth's energy in a harmonious and sustainable manner. For this reason, providing education related to infiltration well construction is expected to be one of the efforts to increase public awareness of the importance of environmental health and provide knowledge on how to make it happen. This approach is expected to empower local potential, foster a sense of belonging, increase the value of benefits, and ensure sustainability. Keywords: Public Health, Health Standards, Infiltration Wells
Pelaksanaan Pengecoran Saluran Peluncur Bangunan Pelimpah Bendungan Cijurey Kabupaten Bogor Provinsi Jawa Barat Sugeng Sutikno; Teguh Imanto; Deny Ernawan
Konstruksi: Publikasi Ilmu Teknik, Perencanaan Tata Ruang dan Teknik Sipil Vol. 3 No. 2 (2025): April: Konstruksi: Publikasi Ilmu Teknik, Perencanaan Tata Ruang dan Teknik Sip
Publisher : Asosiasi Riset Ilmu Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61132/konstruksi.v3i2.1099

Abstract

The major work of the Cijurey Dam Project Package III is located in Bogor Regency, West Java Province, which is a spillway structure consisting of iron structures and concrete structures. To achieve the right quality, on time, on cost, and zero accidents, concrete casting calculations and appropriate work implementation methods are required. This research method uses descriptive with quantitative and qualitative approaches. The stages of concrete casting work for the Cijurey Dam spillway structure's launch channel consist of preparation, measuring the launch channel block boundaries, lean concrete work, reinforcement work, formwork panel preparation, formwork panel installation, waterstop and dowel bar work, concrete sampling and slump test, concrete casting, concrete curing/maintenance, formwork dismantling, and finishing of tierod holes. The results of the study showed that the calculations for casting the concrete channel were a large volume of concrete channel casting of 135,000 m3, concrete material requirements (in the form of: 1,115,100 sacks of cement, 58,050 m3 of sand, 1,020,600 m3 of gravel, and 29,025,000 liters of water), channel formwork (surface area) of 27,675 m2, productivity of casting the concrete channel launcher of 24 m3/hour or 193 m3/day, and the efficiency of casting the concrete channel launcher time of around 125% (25% faster than planned). Meanwhile, the stages of work implementation for channel concrete casting include preparation work, measurement work for the boundaries of the launcher channel blocks, lean concrete work, reinforcement work, formwork panel preparation work, formwork lubrication work, formwork panel installation work, waterstop and dowel bar work, concrete sampling and slump test work, channel concrete casting work, concrete curing/maintenance work, formwork dismantling work, and finishing work for tierod holes. In addition, an inter-segment locking system with a shear key is used to overcome problems with the concrete pump, joint inspections are carried out during mobilization, routine inspections, repairs and replacement of the concrete pump.
Co-Authors Adi Subandi Deny Ernawan Eliya Sari Endang Setiadi Sahur AR Teguh Imanto Tubagus Nur Hidayatulloh Yulianto, Yusup