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"The general term of zone refining denotes a family of methods for controlling the distribution of soluble impurities or solutes in crystalline materials. In such methods a short molten zone travels slowly through a relatively long solid charge and, while traveling, redistributes the solutes in the charge. In this work, Zone, refining will be applied expereimentally to purify Lead (Pb). Lead (Pb) has been using in Lead Acid battery for long time. As a main active material, the purity of Lead (Pb) is very important. It's purity, directly affect to the life cycle of battery. The main purpose of this work is to obtain a phenomeon of the impuritiy compositions in Lead (Pb) after purified by zone refining. Furthermore, this experiment can obatain an alternative method to purify Lead (Pb) by Zone refining method."

"Three types of antimony and bismuth electrolytic cells to be used for lead electrorefining were developed and tested. The electrolytic cell with the bipolar metallic electrode, the electrolytic cell with two anodes and one cathode, and the electrolytic cell with the porous diaphragm were studied. The tests demonstrated that lead is effectively separated from the metallic impurities in all constructions. Grade lead may be obtained at the cathode, and lead-antimony and lead-bismuth alloys may be produced at the anode. The electrolytic cell with a porous diaphragm was found to double the production rate and greatly decrease the electrical potential of the cell as compared to the other two constructions."

"[ABSTRAKLubricant Oil diproses untuk berbagai keperluan dalam bentuk cairan, padat atau gas. Tujuan utama adalah untuk mengurangi gesekan dan menghaluskan gerakan dan menghaluskan gerakan satu permukaan atas yang lain. Used Lubricant Oil yang digunakan biasanya dibuang ke lingkungan dan menyebabkan banyak kerusakan seperti kesehatan (penyakit kanker). Sebagai pencegahan, re-refining adalah satu treatment untuk menghasilkan base oil yang berkualitas bagus. Tujuan dari penelitian ini adalah untuk memodelkan dan mensimulasikan used lubricating oil re-refining process menggunakan Aspen Plus. Hasil simulasi dibandingkan dengan Abdul Karim (2004) bersama kalkulasi Percent Sludge Removal (PSR). Hasil PSR menggunakan Aspen Plus di bandingkan dengan data eksperimen dan data simulasi CHEMCAD dalam bentuk grafik yang menunjukkan bahwa Aspen Plus memiliki trend yang mirip dengan eksperimen dan CHEMCAD. Hasil yang di dapat menunjukkan bahwa PSR meningkat dengan meningkatnya optimum value pada 2g KOH/L isopropanol.ABSTRACTLubricant oil is processed to various purposes in a form of liquids and might be in a form of solid or gas. The main purpose is to reduce the friction and smoothens the movement of one surface over another. The used lubricant oil usually disposed to the environment and the contaminated oil causes many damages to many aspect such as health (cancer disease). As a prevention of any damages, re-refining is one of the treatments to produce high quality of base oil. The aim of this research study is to model and simulate a used lubricating oil re-refining process using Aspen Plus. The simulation result is compared with Abdul Karim (2004) along with the Percent Sludge Removal (PSR) calculation. The resulted PSR using Aspen Plus data is compared to experiment data and simulation data of CHEMCAD in a graph which shows that the Aspen Plus has similar tred to both experiment and CHEMCAD. Results have shown the amount of Sludge removed increases to the optimum value at 2g KOH/L isopropanol;Lubricant oil is processed to various purposes in a form of liquids and might be in a form of solid or gas. The main purpose is to reduce the friction and smoothens the movement of one surface over another. The used lubricant oil usually disposed to the environment and the contaminated oil causes many damages to many aspect such as health (cancer disease). As a prevention of any damages, re-refining is one of the treatments to produce high quality of base oil. The aim of this research study is to model and simulate a used lubricating oil re-refining process using Aspen Plus. The simulation result is compared with Abdul Karim (2004) along with the Percent Sludge Removal (PSR) calculation. The resulted PSR using Aspen Plus data is compared to experiment data and simulation data of CHEMCAD in a graph which shows that the Aspen Plus has similar tred to both experiment and CHEMCAD. Results have shown the amount of Sludge removed increases to the optimum value at 2g KOH/L isopropanol, Lubricant oil is processed to various purposes in a form of liquids and might be in a form of solid or gas. The main purpose is to reduce the friction and smoothens the movement of one surface over another. The used lubricant oil usually disposed to the environment and the contaminated oil causes many damages to many aspect such as health (cancer disease). As a prevention of any damages, re-refining is one of the treatments to produce high quality of base oil. The aim of this research study is to model and simulate a used lubricating oil re-refining process using Aspen Plus. The simulation result is compared with Abdul Karim (2004) along with the Percent Sludge Removal (PSR) calculation. The resulted PSR using Aspen Plus data is compared to experiment data and simulation data of CHEMCAD in a graph which shows that the Aspen Plus has similar tred to both experiment and CHEMCAD. Results have shown the amount of Sludge removed increases to the optimum value at 2g KOH/L isopropanol]"

"ABSTRAKUsing an optimum dynamic scheduling plan, the formulated problem aimed to maximise daily profitability from an existing 12. 5 MW bagasse-based cogeneration plant with a steam capacity of 125 tonne/ h used for sugar refining. The optimal bagasse feed rate yielded a maximum daily profit of 838.49 USD (base case), about 5.14% higher than the conservative constant feeding bagasse into the existing plant. A sensitivity analysis of daily profit was constructed by perturbating the fuel low heating value (LHV), electricity selling rate of electric utility (p) and cost of electricity generation (c) . The maximum daily profit was insensitive to increases in LHV until this LHV was 11% lower than its base case value, which resulted in a decrease in maximum daily profit by 11%. Excessive moisture in the bagasse and the cost of generating electricity (c) caused lower profits, whereas the price of electricity (p) increased profits."

"Tulisan ini adalah untuk menunjukkan bagaimana mengestimasi kesalahan dari solusi elemen hingga dan bagaimana memperkecil kesalahan tersebut dengan cara membentuk jaringan adaptif berdasarkan estimator kesalahan Zienkiewicz-Zhu atau Z2 pada pelat lentur. Estimator kesalahan ini berbasiskan pada pemulihan gaya dalam terhadap hasil solusi elemen hingga yang nonkontinu menjadi kontinu Estimator ini akan diimplementasikan pada program UI-FEAP, sehingga dengan contoh yang ada kita dapat melihat, bagaimana ia dapat menyelesaikan berbagai masalah analisis struktur pada pelat lentur dengan menggunakan elemen MITC dan DKMQ."