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Ditemukan 1639 dokumen yang sesuai dengan query
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Camara, Dom Helder
Yogyakarta: Insist Press, 2000
303.6 CAM s
Buku Teks SO  Universitas Indonesia Library
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Armstrong, Karen
London: Harper Perennial, 2005
200.92 ARM s
Buku Teks SO  Universitas Indonesia Library
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Elmasri, Ramez
Boston: McGraw-Hill, 2010
005.43 ELM o
Buku Teks SO  Universitas Indonesia Library
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Hodge, Paul
"This book summarizes the gathering of information on and the growing understanding of M33 from the 1920s, when Hubble first determined its true nature, to the 21st century, when the Hubble Telescope probed deeply into its many secrets. With its regular symmetrical spiral structure, and its being not tilted too much and near enough to allow detailed studies of its stars, M33 is well-suited for the study of a typical spiral galaxy.
In this work, Paul Hodge places current research on M33 (and similar galaxies) in both historical and global perspectives."
Dordrecht, Netherlands: Springer, 2012
e20401380
eBooks  Universitas Indonesia Library
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Chang Kia-Ngau
Cambridge, UK: Massachusetts Institute of Technology, 1958
332.495 1 CHA i
Buku Teks  Universitas Indonesia Library
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Callan, Mary F.
New York: McGraw-Hill, 1991
338.433 CAL c
Buku Teks  Universitas Indonesia Library
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Ridwan
"Indonesia khususnya Jawa Timur mengalami bencana luapan lumpur yang disebabkan oleh eksplorasi minyak dan gas. Bencana ini dikenal dengan sebutan lumpur Sidoarjo (lusi) atau lumpur Lapindo. Lumpur pada dasarnya adalah campuran antara partikel padat dan air yang membentuk suatu suspensi. Pada saat lumpur diangkut dengan menggunakan pipa, dan jika kecepatan alir tidak cukup tinggi maka lumpur tidak akan bertahan membentuk suspensi sehingga terjadi pengendapan. Dalam pipa spiral dengan rasio pitch perdiameter tertentu, terjadi aliran puntir sehingga mampu mempertahankan kecepatan aliran.
Tujuan penelitian ini adalah untuk mengetahui karakteristik aliran lumpur dalam pipa spiral. Tegangan geser dan regangan geser dihitung dengan mengukur perbedaan tekanan (pressure drop) dan laju aliran volumetrik dalam pipa. Nilai indeks power law sekitar 0,93-1,0 untuk konsentrasi berat (Cw) lumpur sebesar 45%, 30% dan 20%. Diameter partikel adalah 0,95 mm dan massa jenis adalah 2,19 x 103 (kg/m3). Hubungan viskositas sesaat dengan regangan geser menunjukkan hubungan yang tidak konstan. Koefisien gesek di dalam pipa spiral dengan rasio pitch per diameter (P/Di) = 6,7 lebih rendah dari pipa bulat dan pipa spiral dengan P/Di = 3,9 ; 4,3 dan 7,0. Hal ini menunjukkan bahwa pipa spiral menyebabkan penurunan hambatan (drag reduction) aliran lumpur. Nilai drag reduction sekitar 28% untuk Cw = 30% pada Reynolds generalis, Re? = 3,2 x 104 . Analisis model matematika dari nilai koefisien gesek aliran lumpur pada pipa spiral sebagai fungsi dari kepadatan lumpur, rasio pitch/diameter, dan bilangan Reynolds generalis dapat ditunjukkan.

Indonesia particularly East Java has been suffering from eruption of gas and mud slurry, caused by oil and gas exploration. Everyone calls this disaster as Sidoarjo mud or Lapindo mud. Mud slurry is essentially a mixture of a carrying fluid and solid particles held in suspension. When the mud slurry flow speed is not sufficiently high the particles will not be maintained in suspension. In spiral pipe twisted with a constant pitch in relation to the diameter a swirling flow occurs when fluids flow in the pipe.
The aim of this study is to examine characteristics of the hydraulic transport of mud slurry flowing in the spiral pipe with three-shaps groove pipe walls. Measurements of pressure drop was carried out for tap water and mud slurry solution in circular pipes and spiral pipes by means of a manometer. The shear stress and the shear strain are calculated by measuring the pressure drop and the volumetric flow rate in circular pipe, respectively. The power law index were about 0.93 ? 1.0 for mud slurry solution of 45%, 30% and 20% of weight concentrations. The diameter of particles was ± 0.95 mm and the density was 2.19 x 103 (kg/m3). The apparent viscosity of mud slurry solution is not constant to the shear rate but the relationship is approximated by model of power law. The friction factor of mud slurries in a spiral pipe with ratio pitch per diameter 6.7 is lower than circular pipe and spiral pipe with P/Di= 3.9, 4.3 and 7.0. It was shown that the spiral pipe caused drag reduction in flowing of mud slurries. The drag reduction ratio of spiral pipe was about 28% for Cw=30% at Reynolods generalis, Re?=3,2 x 104. Analysis of mathematical models of the value of the coefficient of friction on the mud flow as a function of weight concentration, the ratio of pitch per diameter, and generalist Reynolds number can be shown."
Depok: Fakultas Teknik Universitas Indonesia, 2012
D1269
UI - Disertasi Open  Universitas Indonesia Library
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Sylvia Y. Muliawan
Jakarta: Erlangga, 2008
616.9 SYL b (1)
Buku Teks SO  Universitas Indonesia Library
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"Ketika GeorgeSoros, 75, spekulator pasar uang dunia datang ke Jakarta Januari 2006, ia menyampaikan tiga sinyal. Yakni 'rupiah is stil; tikely to volatile', ekonomi Amerika Serikat (AS) bakal terpukul resesi tahun 2007, dan terorisme tidak bisa dilawan oleh perang. (Bernama, 7/1/2006) Apa Makna tiga sinyal itu terhadap skenario risiko politik di NKRI?"
IKI 2:10 (2006)
Artikel Jurnal  Universitas Indonesia Library
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Yanuar
"Silica sand slurry is a multiphase flow that consists of liquid and particle solids. Slurry flow characteristics are affected by particle size, particle distribution, particle concentrate, pipe geometry, flow regime, and viscosity factors. Spiral pipe is one of the solutions to increase drag reduction at a certain velocity and Reynolds number (Re). The aim of this experiment is to figure out the influence of using spiral pipe in increasing drag reduction of silica sand slurry flow. The pipeline used is spiral pipe with a helicial tape with two ratios of pitch per diameter (p/D), i.e. = 4 and 7. The test loop is set up as 3,500 mm (3.5 meters) in length. The size of the particle is 1 mm in diameter. The mean density of the silica sand particles is 2,300 kg/m3. The velocities are set between 1m/second and 5m/second. The percentage of volumetric concentration of solids in slurry (Cw) varies between 20%, 30%, and 50% in weight. Particle concentration, the Reynolds number and ratio of pitch and diameter give significant impact to the drag reduction. At a ratio of pitch/diameter (p/Di) = 7, at a Reynolds number (Re) of 30,000 and at Cw 50% can increase drag reduction to about 33%."
Depok: Faculty of Engineering, Universitas Indonesia, 2015
UI-IJTECH 6:6 (2015)
Artikel Jurnal  Universitas Indonesia Library
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