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Dalam kondisi krisis moneter dewasa ini selain kita bisa melihat kemampuan diri sendiri tapi jika dilihat dan sisi yang positif bahwa saat ini kesempatan untuk mengembangkan industri didalam negeri. Salah satu yang bisa dikembangkan adalah indutri pengecoran rakyat khususnya yang memproduksi komponen kemdaraan bermotor. Dari hasil penelitian didapat bahwa untuk mendapatkan kekuatan tekan tertinggi yaitu 1002 gr/cm2, kadar bentonit 13% dan kadar air 3 % sedangkan kekuatan geser terbesar adalah 266 gr/cm2 pada kadar bentonit 13% dan kadar air 4%. Temperatur pasir cetak yang optimum adalah 40°C.

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ABSTRAK
Rockfill dams have better stability than homogeneous soil dams. It allows to design the dam more slim with a higher slope. The disadvantage of rockfill dam is in the core zone as an impermeable zone. Zoned vertical core rockfill dam is a combination of various material properties. Geometry and drainage design will affect the seepage and phreatic line properties that occur. Numerical modeling and calculations are used to calculate the seepage profile more accurately. The combination of the parameters of the permeability coefficient (K), reservoir water level (Δh) and the length of the seepage path (L) can be used to determine the relationship between parameters with the same unit. 2D modeling take into account saturated/unsaturated conditions with steady state on each parameter. This study uses the Jatibarang-Indonesia dam as a basic model. The seepage profile at condition K1 (k = 1x10-5cm/sec) is q/k = -0.0018 (h2/L)2 + 1.3496h2/L + 53.241 and the seepage profile K2 (k=1x10-7cm/s) is q/k = -0.1521 (h2/L)2 + 90.402h2/L + 5480.2. This equations can be used to estimate seepage that occurs in a dam of other rock fill zoned vertical core dam based on the permeability coefficient value (K) more practically for all values of Δh and L reviewed.

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[Lapangan ARA yang terletak di lepas pantai Delta Mahakam modern merupakan lapangan penghasil gas yang berproduksi sejak 2008 hingga sekarang. Sesar Utama yang merupakan sesar normal berorientasi NNE-SSW dengan kemiringan relatif ke arah Timur memisahkan Lapangan ARA menjadi dua panel: Panel Barat dan Panel Tengah. Studi konklusif mengenai sifat sekatan sesar utama ini diperlukan dalam optimisasi pemodelan geologi dan kelanjutan pengembangan lapangan. Studi internal telah menggunakan interpretasi horizon dan sesar dari seismik 3D beserta data log sumur sebagai dasar utama pembuatan model struktur, fasies, dan petrofisik Lapangan ARA. Prediksi SGR (shale gouge ratio), permeabilitas batuan zona sesar (Kf), dan fault-rock capillary pressure (FRPc) adalah parameter-parameter utama yang digunakan dalam analisis sifat sekatan sesar. Parameter-parameter tersebut di kalibrasi menggunakan analisis reservoir statik dan dinamik berdasarkan data pengukuran tekanan reservoir. Analisis sekatan Sesar Utama Lapangan ARA menghasilkan batas nilai parameter sekatan untuk zona sesar bersifat tersekat, yaitu SGR > 0.39, Kf < 0.025 mD, dan FRPc > 3.3 bar / 47.8 psi. Variasi kapasitas sekatan sesar dikontrol lebih dominan oleh faktor penyebaran reservoir juxtaposition dibandingkan faktor penyebaran atribut fault throw. Peningkatan perbedaan tekanan reservoir saling kontak antar panel hingga melebihi kapasitas sekatan sesar akibat produksi intensif, menjadi penyebab kebocoran sesar;ARA Field, which is located in offshore area of modern Mahakam Delta, is producing gas since 2008. Main normal fault in the middle of the field separates the field into two panels: West panel and Central Panel. Conclusive study about the sealing behavior of this main fault is needed in order to optimize geology model and future field development. Internal study has used 3D seismic faults and horizons interpretation with its well logs as main input to made structural, facies, and petrophysic model of ARA Field. Shale gouge ratio prediction, fault-rock permeability (Kf), and fault-rock capillary pressure (FRPc) are main analyzed parameters used in this research. Those parameters are then validated with static and dynamic reservoir analysis based on available reservoir pressure data. ARA Field Main Fault seal analysis results cutoff value for each analyzed parameters: SGR > 0.39, Kf < 0.025 mD, and FRPc > 3.3 bar / 47.8 psi. Fault sealing capacity distribution is controlled more dominantly by the reservoir juxtaposition distribution than fault throw attribute. Increase of across fault differential pressure in juxtaposed reservoirs that exceeds the maximum fault seal threshold capability is interpreted as the main cause of fault leak., ARA Field, which is located in offshore area of modern Mahakam Delta, is producing gas since 2008. Main normal fault in the middle of the field separates the field into two panels: West panel and Central Panel. Conclusive study about the sealing behavior of this main fault is needed in order to optimize geology model and future field development. Internal study has used 3D seismic faults and horizons interpretation with its well logs as main input to made structural, facies, and petrophysic model of ARA Field. Shale gouge ratio prediction, fault-rock permeability (Kf), and fault-rock capillary pressure (FRPc) are main analyzed parameters used in this research. Those parameters are then validated with static and dynamic reservoir analysis based on available reservoir pressure data. ARA Field Main Fault seal analysis results cutoff value for each analyzed parameters: SGR > 0.39, Kf < 0.025 mD, and FRPc > 3.3 bar / 47.8 psi. Fault sealing capacity distribution is controlled more dominantly by the reservoir juxtaposition distribution than fault throw attribute. Increase of across fault differential pressure in juxtaposed reservoirs that exceeds the maximum fault seal threshold capability is interpreted as the main cause of fault leak.]

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Permeabilitas batuan merupakan parameter penting dalam meningkatkan drilling success ratio dan monitoring reservoir geotermal. Keberadaannya dikontrol oleh fracture akibat stress. Salah satu metode untuk menentukan keberadaan zona permeabel yang dikontrol oleh rekahan atau patahan adalah MEQ microearthquake . Identifikasi dan analisis karakteristik fracture dapat digunakan untuk mengoptimalkan produktivitas. Data gempa mikro tidak hanya memetakan sebaran zona permeabel berdasarkan sebaran hiposenternya, tetapi juga mampu mengkarakterisasi zona fracture berdasarkan analisis mekanisme fokal dan momen tensor. Dari data MEQ lapangan 'X' dengan memanfaatkan waveform lokal tiga komponen telah dilakukan inversi momen tensor. Hasil penelitian menunjukkan bahwa sebaran fracture yang mengontrol permeabilitas memiliki dominasi arah orientasi strike yakni NW-SE dan NE-SW. Hasil analisis momen tensor menunjukkan pada lapangan bagian Utara di elevasi sekitar 1 km bsl ke atas didominasi komponen implosif, berkaitan dengan pergerakan batuan secara konvergen yang dapat berdampak pada potensi penurunan permeabilitas batuan reservoir. Lapangan bagian Utara di elevasi sekitar 1 km bsl ke bawah menunjukkan komponen-komponen eksplosif, berkaitan dengan pergerakan batuan secara divergen yang mengindikasikan distribusi permeabilitas di lapangan Utara secara keseluruhan tergolong baik. Namun tetap ada potensi dan indikasi penurunan permeabilitas karena jika pergerakan konvergen hasil komponen implosif terus terjadi akibat ekstraksi massa fluida dan tidak diimbangi dengan suplai fluida ke reservoir, maka akan berpengaruh pada sifat fisik reservoir, termasuk penurunan permeabilitas. Selain itu, hasil penelitian ini juga menunjukkan bahwa permeabilitas di zona Selatan cukup besar. ...... Rock permeability is an important parameter in improving drilling success ratio and monitoring of geothermal reservoir. Its existence is controlled by fracture due to stress. Identification and analysis of fracture characteristics can be used to optimize the productivity. MEQ microearthquake is a method that can be used to determine the existing of permeable zones controlled by fractures or faults. MEQ data not only map the permeable zone distribution based on its hypocenter, but also characterize the fracture zones based on analysis of focal mechanism and moment tensor. Moment tensor inversion has done using MEQ data by utilizing three components of local waveform. The results of this study indicate that the distribution of fractures that control permeability has dominant strike orientation direction ie NW SE and NE SW. The results of moment tensor analysis show in the northern field at elevation of about 1 km bsl upward is dominated by implosive components, related to convergent rock movement which can impact on potential decrease of permeability of reservoir rock. The northern field at elevation of about 1 km bsl down show explosive components, related to diverging rock movement which indicates the distribution of permeability in the North field as a whole is quite good. However, there are potential and indication of a decrease in permeability because if convergent motion continues to occur due to fluid mass extraction and is not balanced with fluid supply to the reservoir, it will affect the physical properties of the reservoir, including the decrease in permeability. In addition, the results of this study also indicate that permeability in the South zone is considerable.

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Sebagai lapangan non-konvensional, lapangan Coalbed Methane CBM memiliki tantangan tersendiri dalam pengelolaan lapangannya, yaitu berupa nilai permeabilitas reservoir relatif kecil dan laju alir gas yang relatif rendah. Penelitian ini difokuskan untuk menemukan desain hydraulic fracturing yang paling efektif untuk meningkatkan produksi gas pada lapangan CBM. Proppant jenis silica sand SS dan resin coated sand RCS dengan berbagai variasi ukuran dijadikan variabel utama beserta laju pemompaannya. Rancangan simulasi hydraulic fracturing dilakukan dengan menggunakan model pseudo-three dimensional P3D untuk mendapatkan distribusi tinggi, lebar dan panjang rekahan pada lapisan reservoir. Permeabilitas reservoir setelah proses hydraulic fracturing menunjukkan peningkatan dari 4mD menjadi 14 mD, yang menghasilkan kenaikan laju produksi gas hingga 178.3 BSCF/tahun atau 3 kali dari laju produksi sebelum dilakukan stimulasi. Kondisi ini dicapai menggunakan laju pemompaan 6.5 BPM dengan tipe Proppant resin coated sand pada ukuran 16/30, dan mengikuti jadwal pengeboran moderate. Selama pemompaan Proppant ke dalam sumur, konsentrasi Proppant dinaikkan secara gradual dimulai dari 6 PPA hingga 11 PPA. Dari hasil analisis keekonomian, diketahui bahwa pengembangan lapangan CBM akan menguntungkan secara komersil apabila dilakukan stimulasi hydraulic fracturing sejak awal produksi dimana nilai IRR lapangan menunjukkan angka 18.40 dengan waktu pengembalian modal selama 15 tahun.

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As an unconventional reservoir, coalbed methane CBM field has its own challenges in the field management, where the dewatering process takes a long time before commercial gas rates are achieved. This condition take place due to the permeability of the reservoir is low, and gas flow rate as well. To increase field productivity and accelerating the dewatering process, the Hydraulic Fracturing technology in CBM field is analyzed. This study will be focus to find the optimum Proppant design of fracturing at CBM field where silica sand SS and resin coated sand RCS in various size are the main variable. The stimulation design is using pseudo three dimensional P3D model to get fracture height, width and length distribution in reservoir layer, then the result will be used to calculate production gain after fracturing process. The reservoir permeability after fracturing is compared with initial permeability and shows an increasement from 4mD to 14 mD, which result in gas rate increase to 178.3 BSCF annum or 3 times higher from initial gas production rate. This condition are achieve by using 6.5 bpm of pumping rate with RCS 16 30 as a main Proppant and following moderate drilling schedule. During stimulation process, proppant concentration was increase gradually start from 6 PPA to 11 PPA. The economic analysis result shows that hydraulic fracturing stimulation is important to do after drilling operation to get maximum profit from field development. The IRR value after hydraulic fracturing stimulation is 18.40 with pay out time 15 years.

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Studi terbaru mendasari pentingnya permeabilitas usus dan inflamasi kronis dalam patogenesis DMT2. Studi kami membandingkan konsentrasi FABP2 dan YKL40 sebagai penanda permeabilitas usus dan peradangan di antara normoglikemia, pradiabetes, dan DMT2. Kami merekrut 122 peserta (45 normoglikemik, 26 pradiabetes, dan 51 DMT2) di antaranya kami mengukur kadar FABP2 dan YKL-40 serum puasa menggunakan metode ELISA. Tingkat FABP2 secara signifikan lebih tinggi pada kelompok DMT2 [2,890(1,880 – 4,070)] dibandingkan dengan kedua pradiabetes [2,025 (1,145 – 2,343), p=0,0085] dan kelompok normoglikemia [1,72 (1,250 – 2,645), p=0,011 ]. Tingkat YKL-40 juga secara signifikan lebih tinggi pada kelompok DMT2 [68,70 (44,61 – 166,6)] dibandingkan dengan kedua pradiabetes [28,85 (20,64 – 41,53), p<0,0001] dan kelompok normoglikemia [28,64 (19,25 – 43,87), p<0,001]. Studi kami mengamati bahwa kadar FABP2 dan YKL-40 tertinggi pada kelompok T2DM yang mendukung bukti yang tersedia tentang peran gangguan permeabilitas usus dan peradangan kronis tingkat rendah dalam patogenesis T2DM. ......Recent studies underlie the importance of intestinal permeability and chronic inflamamation in the pathogenesis of T2DM. Our study compared the concentrations of FABP2 and YKL40 as markers of intestinal permeability and inflammation among normoglycemia, prediabetes and T2DM. We recruited 122 participants (45 normoglycemic,  26 prediabetes, and 51 T2DM) of whom we measured the fasting serum levels of FABP2 and YKL-40 using ELISA method. The levels of FABP2 were significantly higher in the T2DM group [2.890(1.880 – 4.070)] in comparison to both prediabetes [2.025 (1.145 – 2.343), p=0.0085] and normoglycemia group [1.72 (1.250 – 2.645), p=0.011]. The levels of YKL-40 were also significantly higher in the T2DM group [68.70 (44.61 – 166.6)] in comparison to both prediabetes [28.85 (20.64 – 41.53), p<0.0001] and normoglycemia group [28.64 (19.25 – 43.87), p<0.001]. Our study observed that the levels of  FABP2 and YKL-40 were highest in the T2DM group supporting the available evidences on the role of intestinal permeability disruption and chronic low-grade inflammation in the pathogenesis of T2DM.

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Penelitian ini mengkaji pengaruh doping Lithium (Li) dan Titanium (Ti) pada BiFeO3 (BFO). Semua sampel disintesis menggunakan metode sol-gel. Tahap selanjutnya adalah dengan melakukan komposit senyawa BFO yang di doping Lithium dan Titanium dengan poliuretan (PU) dan karbon (C). Difraksi sinar-X, SEM/EDS, dan vector network analyzer (VNA) dilakukan untuk mengkarakterisasi struktur mikro dan sifat elektromagnetik dari sampel yang disiapkan. Pengujian Bi1−xLixFeO3 (x = 0.02, 0.04, 0.06) menunjukkan nilai permeabilitas tertinggi diperoleh pada konsentrasi x = 0.06 yang juga dihasilkan puncak serapan tertinggi dengan reflection loss (RL) sebesar -46 dB pada frekuensi10.08 GHz dengan bandwidth (BW) 0.1 GHz. Hasil pengujian BiFe1-yTiyO3 (y = 0, 0.01, 0.03, 0.05, 0.07) diperoleh nilai permitivitas tertinggi pada komposisi y=0.03, yang juga dihasilkan penyerapan gelombang mikro tertinggi dengan RL sebesar -35 dB pada frekuensi 11.12 GHz dengan BW 0.46 GHz. Bahan komposit PU/C/BLFO6 menghasilkan RL sebesar -23.32 dB pada frekuensi 10.76 GHz dengan BW 0.59 GHz, sedangkan pada bahan komposit PU/C/BFTO3 menghasilkan RL sebesar -42.21 dB pada frekuensi 10.48 GHz dengan BW 0.83 GHz. Bahan komposit dengan komposisi berat BLFO6 (60%) dan BFTO3 (40%) [PU/C/BLFTO64] dengan ketebalan sampel 2 mm menghasilkan serapan tertinggi dibandingkan dengan komposisi bahan komposit lainnya dengan RL −50.56 dB pada frekuensi 10.68 GHz dengan BW 0.78 GHz. Penambahan doping Li dan Ti pada BFO terbukti dapat meningkatkan sifat permeabilitas dan permitivitas yang merupakan salah satu persyaratan agar BFO dapat dijadikan bahan penyerap gelombang mikro yang baik. Penambahan PU/C juga terbukti dapat meningkatkan serapan gelombang mikro dan memperlebar bandwidth. Bahan komposit PU/C/BLFTO64 mempunyai sifat penyerap gelombang mikro yang baik pada frekuensi X-band. ...... This study investigates the effect of Lithium (Li) and Titanium (Ti) doping on BiFeO3 (BFO). All samples were synthesized using the sol-gel method. The next step is to perform a composite of Lithium and Titanium doped BFO compounds with polyurethane (PU) and carbon (C). The X-ray diffraction, SEM/EDS, and vector network analyzer (VNA) were conducted to characterize the microstructure and electromagnetic properties of the as-prepared samples. The test result of Bi1−xLixFeO3 (x = 0.02, 0.04, 0.06) showed the highest permeability values and also produces the highest reflection loss (RL) of −46 dB over a 0.1 GHz bandwidth at 10.08 GHz. The test results of the BiFe1-yTiyO3 (y = 0.01, 0.03, 0.05, 0.07) obtained the highest permittivity value at the doping of y = 0.03 and also was produces the highest microwave absorption with RL −35 dB over a 0.41 GHz bandwidth at 11.12 GHz. The composite material of PU/C/BLFO6 produced an RL of −23.32 dB over a 0.59 GHz bandwidth at 10.76 GHz, while the composite material of PU/C/BFTO3 produced an RL of −42.21 dB over a 0.83 GHz bandwidth at 10.48 GHz. A composite material with BLFO6 (60%) and BFTO3 (40%) [PU/C/BLFTO64] weight fractions and a sample thickness of 2 mm produced the highest absorption compared to other compositions with RL −50.56 dB over a 0.78 GHz bandwidth at 10.68 GHz. The doping of Li and Ti to BFO is proven to improve the permeability and permittivity properties which are one of the requirements for BFO to be used as a good microwave absorbent material. The addition of PU/C is also proven to increase microwave absorption and widen bandwidth. The results indicate that the composite material of PU/C/BLFTO64 were successfully gained and the as-prepared samples possess excellent microwave absorption properties in X-band frequency.

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Industri air limbah wine menghasilkan air limbah yang memiliki karakteristik tinggi kandungan organik serta pH bersifat asam. Pengolahan konvensional dalam mengolah air limbah industri wine sangat kompleks, sehingga membutuhkan penanganan secara khusus. Saat ini, terdapat teknologi pengolahan yang sesuai dengan karakteristik air limbah wine yaitu proses oksidasi Fenton dan teknologi membran. Teknologi membran memiliki ukuran pori yang berbeda-beda, saat ini banyak pemanfaatan membran jenis nanofiltrasi dalam pengaplikasian pengolahan limbah industri. Membran nanofiltrasi memiliki kemampuan yang mirip dengan reverse osmosis yang dapat menyisihkan kandungan bahan organik serta anorganik. Proses filtrasi pada penelitian ini dilakukan secara konstan fluks dengan variasi fluks 40 LMH, 50 LMH, dan 60 LMH. Hasil penyisihan COD, besi, dan warna pada fluks 40 LMH, 50 LMH, dan 60 LMH secara berturut-turut adalah 64% ; 93%; 100%, 75%; 93% ; 100%, dan 76%; 94%; 100%. Hasil penelitian menunjukkan bahwa efisiensi penyisihan paling efektif pada fluks 60 LMH. Namun fluks 60 LMH rentan mengalami fouling yang menyebabkan permeabilitas menurun seiring berjalannya waktu. Selain itu, reversibility pada kondisi pengoperasian fluks 60 LMH didominasi oleh jenis irreversible fouling, sehingga proses mechanical backwash tidak cukup untuk mengembalikan performa membran dan membutuhkan chemical cleaning. ......The wine wastewater industry produces wastewater that is characterized by high organic content and an acidic pH. Conventional processing of wine industry wastewater is very complex, so it requires special handling. Currently, there are processing technologies that suit the characteristics of wine wastewater, namely the Fenton oxidation process and membrane technology. Membrane technology has different pore sizes, currently many nanofiltration type membranes are used in industrial waste processing applications. Nanofiltration membranes have capabilities similar to reverse osmosis which can remove organic and inorganic materials. The filtration process in this study was carried out at constant flux with flux variations of 40 LMH, 50 LMH, and 60 LMH. The COD, iron and color removal results at fluxes of 40 LMH, 50 LMH and 60 LMH respectively were 64%; 93%; 100%, 75%; 93% ; 100%, and 76%; 94%; 100%. The results showed that the removal efficiency was most effective at a flux of 60 LMH. However, 60 LMH flux is susceptible to fouling which causes permeability to decrease over time. Apart from that, reversibility at 60 LMH flux operating conditions is dominated by irreversible fouling, so the mechanical backwash process is not enough to restore membrane performance and requires chemical cleaning.

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ABSTRAK

Perpindahan dari satu titik ke titik lain biasa kita kenal dengan istilah mobilitas. Kegiatan berjalan kaki sebagai sarana mobilitas yang telah kita kenal sejak lama membutuhkan perhatian agar kelangsungannya dapat berjalan dengan baik. Mempercepat mobilitas berarti mempercepat pergerakan dengan cara mengurangi waktu yang dibutuhkan untuk berpindah dari satu titik ke titik lainnya. Dalam konteks berjalan kaki, pengurangan waktu tempuh atau peningkatan mobilitas dapat dicapai dengan adanya permeabilitas suatu lingkungan terhadap aktor-aktor pergerakan yang adalah pejalan kaki itu sendiri. Permeabilitas lingkungan diciptakan dari faktor-faktor seperti konektivitas dan aksesibilitas. Dalam arsitektur, permeabilitas tercipta dari hal-hal fisik yang ada disuatu kawasan dan hal non fisik yaitu kenyamanan dari manusia itu sendiri. Skripsi ini akan mengulas tentang apa-apa saja yang seharusnya ada dalam suatu kawasan kota agar kota itu dapat bersifat permeabel bagi pejalan kaki khususnya di kawasan perkotaan dimana cenderung terjadi banyak aktivitas berjalan kaki. Lokasi penelitian berada di dua kawasan berbeda dengan harapan dapat terlihatnya perbedaan dalam hal permeabilitas pejalan kaki oleh perbedaan kondisi fisik yang terdapat di masing-masing kawasan.

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ABSTRACT

We have known mobility as an activity that requires movement from one point to another. Activity of moving on foot as a primary mobility choice requires no less attention so that it may go well in practice. To increase mobility means to increase speed of human movement by reducing the time needed for movement from one point to another. In context of walking, reduction of such time or an increase of mobility can be reached by an existence of permeability in a neighborhood toward actors of movement whom we have known as the pedestrian. Permeability of a neighborhood is also formed by factors such as connectivity and accessibility. In architectural context, permeability is formed by physical things that are inside the neighborhood and also by non-physical factor which is the feeling of cozyness that a pedestrian can get from within the place itself. This undergraduate thesis is going to discuss about what should probably exist inside a neighborhood of a city so that the place can be permeable for pedestrian movement especially in a neighborhood where activity of movement/mobility is more likely to happen. Location of study is two different neighborhoods in hope that factors affecting pedestrian permeability will be more obvious by difference of physical condition within each respective neighborhood.