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Sugeng Santoso
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Departement Industrial Engineering University of Muhammadiyah Malang Jl. Tlogomas No 246 Malang
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INDONESIA
Jurnal Teknik Industri
Published by Universitas Muhammadiyah Malang
ISSN : 19781431     EISSN : 25274112     DOI : -
Core Subject : Economy, Science, Engineering,
Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Industrial & Manufacturing Engineering
Dr. Saiful Anwar Malang is a state hospital has done it is job and function, but in 3rd class of pavilion room, the number of patient decrease dramatically. It is concerned with quality of this hospital. To answer this problem, research was done using Quality Function Deployment (QFD). Quality Function Deployment is a tool which design some needs include customers represented as a voice of customer and including some competitions and also groups some activities that usually called affinity graphic ang getting a benchmarking for it is competition. From the result analysis can be showed that main attribute for patience is a accuracy. And from House Of Quality can be found that getting a periodic meeting to evaluate this hospital and also increase a service can be made 20 concept
Arjuna Subject : Bisnis, Menejemen, dan Akutansi (semua kategori) - Strategi dan Menejemen
Articles 14 Documents
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Search results for , issue "Vol. 12 No. 2 (2011): Agustus" : 14 Documents clear
Fenomena Hydraulic Jump Look Like Dan Onset Of Flooding Dalam Pipa Vetikal M Mahmuddin; Samsul Kamal; Indarto Indarto; P Purnomo
Jurnal Teknik Industri Vol. 12 No. 2 (2011): Agustus
Publisher : Department Industrial Engineering, University of Muhammadiyah Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1661.251 KB) | DOI: 10.22219/JTIUMM.Vol12.No2.182-191

Abstract

Experiments have been conducted on countercurrent flow of air and water in pipe of 24 mm diameter. Flow patterns observations, measurement of the pressure gradient and film thickness conducted at water Reynolds numbers (ReL) are varied 322, 465, 630 and 709 combined to injected air with velocity from 1.845 m/s to 6.148 m/s at a distance of 400 mm, 1600 mm and 2200 mm from the water inlet. The data showed that the pressure gradient and film thickness did not increase appreciably until just before the onset of flooding. Otherwise, when flooding conditions wave propagation in surface the film flow from the bottom of air inlet, increasing film thickness gradually and pressure gradient also increase quickly. Increasing film thikcness gradually indicated as phenomenon hydraulic jump look like.
Perancangan Group Technology Layout Di PT. DPS Surabaya Dengan Metode Simulasi Dan Taguchi Rahaju Saraswati; Ali Azhar; M Mudjahidin; Dedy Kunhadi
Jurnal Teknik Industri Vol. 12 No. 2 (2011): Agustus
Publisher : Department Industrial Engineering, University of Muhammadiyah Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1628.766 KB) | DOI: 10.22219/JTIUMM.Vol12.No2.104-109

Abstract

PT Dok dan Perkapalan Surabaya (DPS) is one of several strategic BUMN in marine field. With BUMN restructurisation and efficiency program from Government, PT DPS is liable to improve its production system efficiency. Many problems that faced by PT DPS to improve its production system efficiency are : (1)There is waste work shop such as work in process, waiting time, and flow time at fabrication process in PT DPS, (2) Because waste work shop is still big, shop production process efficiency has not reached maximally yet, (3)Layout and facilities of PT DPS today is already suitable with concept of Product Oriented Work Breakdown Structure (PBWS), but it is limited at simple construction form. At this research, there is ship production process design with Process Lane Construction and Zone Outfitting method or it is known with Group Technology Layout (Manufacturing Cell System) term in order to solve inefficiency problem at ship production process in PT DPS. Design process is performed by integrating Simulation method, Taguchi, Response Surface Methodology, and Analytical Hierarchy Process (AHP). Simulation method is used to model designed manufacturing cell system, meanwhile Taguchi method and Response Surface Methodology are used for experiment and optimization at manufacturing system simulation model. In order to measure the performanceof designed manufacturing cell system, multivariate measurement method is used, that is by measuring work in process, waiting time, and flow time with smaller the better criteria. Multi response becomes single response by using Analytical Hierarchy Process (AHP) method. From research result with Taguchi Method and Response Surface Methodology know that in fabrication stage optimal layout is second tipe, optimal set up time is 40 minutes, optimal lot size is 16 tons, optimal loading interval is 400 minutes, optimal demand stability is 92.5 %, in subassembly stage optimal layout is first tipe, optimal set up time is 40 minutes, optimal lotsize is 10 tons, optimal loading interval is 400 minutes, optimal demand stability is 92.5 %, in assembly stage optimal layout is first tipe, optimal set up time is 40 minutes, optimal lotsize is 6tons, optimal loading interval is 400 minutes, optimal demand stability is 92.5 %, in erection stage optimal layout is second tipe, optimal set up time is 40 minutes, optimal lot size is 6 tons, optimal loading interval is 480 minutes, optimal demand stability is 92.5 %.
Pengembangan Algoritma Penjadwalan Dan Maintenance Mesin (Studi Kasus Di PT. “X”) Dian Retno Sari Dewi; Dini Endah
Jurnal Teknik Industri Vol. 12 No. 2 (2011): Agustus
Publisher : Department Industrial Engineering, University of Muhammadiyah Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (927.681 KB) | DOI: 10.22219/JTIUMM.Vol12.No2.192-202

Abstract

PT “X” merupakan perusahaan yang bergerak di bidang wood adhesive. Penelitian dilakukan di adhesive plant yang menggunakan 10 mesin reaktor kimia untuk melakukan proses produksi. Mesin reaktor kimia ini memiliki kapasitas produksi yang berbeda-beda. Penelitian ini mengembangkan model algoritma penjadwalan produksi yang terintegrasi dengan perawatan mesin. Obyek penelitian untuk melakukan perawatan mesin adalah komponen kritis bagian gearbox reaktor kimia sebagai penggerak propeller. Pemilihan komponen kritis dilakukan melalui analisis pareto chart. Dari analisis pareto chart didapatkan komponen kritis dari tiap reaktor kimia adalah bearing. Interval waktu perawatan yang optimal ditentukan berdasarkan penghitungan C(tp) yang optimal. Interval perawatan yang optimal untukmasing-masing reaktor kimia dari nomer 1 sampai dengan 10 berturut-turut adalah 1870, 1200, 1132, 1899, 1901, 1610, 1586, 2600, 2071, dan 1932 (dalam satuan jam). Interval perawatan ini dialokasikan pada penjadwalan produksi. Penjadwalan produksi dilakukan dengan memberikan aturan urutan pengerjaan berdasarkan slack time. Aturan ini untuk dapat memberikan prioritas pada order produksi yang harus diproduksi terlebih dahulu sesuai dengan urutan prioritasnya. Penjadwalan produksi dengan mengintegrasikan perawatan mesin pada contoh numerik dapat melakukan efisiensi total tardiness cost sebesar 15,38% dan 9,4% jika ada penyisipan order produksi.
Optimasi Pengembangan Kelembagaan Industri Pangan Organik Di Jawa Timur Moch. Agus Krisno Budiyanto
Jurnal Teknik Industri Vol. 12 No. 2 (2011): Agustus
Publisher : Department Industrial Engineering, University of Muhammadiyah Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22219/JTIUMM.Vol12.No2.169-176

Abstract

The objective of this study is to identify optimalization of industries institutional development of organic food in East Java. The type of research used in this research is the study of phenomenology. Subjects of research is industries of organic food institution included UMKM for organic food, Department of Agriculture, Food Industry, Organic Food Farmers Group, and Banking in Lumajang District, Malang District and Blitar District in East Java Province. Data collection methods used are indepth interviews and participation observation. Test the validity of data used is the triangulation of sources and methods. The research data were analyzed with qualitative analysis (Content Analysis) by using the interactive model of Miles and Huberman. From the research results, it can be conclude that the pattern of industries institutional development of organic food in East Java divided into three optimize patterns namely the cluster pattern, the pattern of partnerships, and the pattern of BDSP (Business Development Services Provider). The clusters pattern is the industries institutional development of organic food with organic food way of grouping institutions (including UMKM) in a region or set the region as a specific business area. A partnership consisting of the core plasma partnerships and foster father partnerships. BDSP pattern is a pattern based development institution in the system of business development services. In general, the cluster pattern can improve the performance of the supply, distribution, marketing, and utility of industries of organic food in East Java. Lumajang District is the most potential area in the development of cluster patterns industries of oganic food.

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