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Abstrak :
Pengaruh penambahan emulsifier lesitin terhadap kestabilan campuran madu herbal madu minyak habbatussauda dan minyak zaitun telah diteliti Kestabilan campuran madu herbal diuji dengan dengan 4 macam cara yaitu sentrifugasi cycling test uji viskositas dan uji ukuran partikel Hasil uji sentrifugasi pada campuran madu herbal dengan konsentrasi lesitin di bawah 5 massa minyak tidak menunjukkan adanya pemisahan fasa Penambahan lesitin setelah batas tertentu akan meningkatkan viskositas campuran Penambahan lesitin sebesar 5 dari massa total minyak ke dalam campuran dengan konsentrasi minyak 7 5 memberikan viskositas yang minimum 4870 cp Cycling test dilakukan dalam refrigerator 4oC dan oven 40oC selama masing masing 24 jam sebanyak 3 kali Hasil cycling test tidak menunjukkan adanya kristalisasi ataupun pemisahan fasa Analisis PSA Particle Size Analyzer membuktikan bahwa penambahan lesitin menyebabkan pembesaran ukuran partikel Rata rata diameter partikel campuran madu herbal tanpa lesitin sebesar 6 3 mm sedangkan campuran madu herbal dengan lesitin sebanyak 1 dari total minyak adalah sebesar 4 67 mm Dari penelitian ini dapat disimpulkan bahwa penggunaan lesitin sebanyak 1 5 dari total massa minyak konsentrasi 7 5 10 dapat menghasilkan campuran yang stabil ......The influence of adding lecithin emulsifier on the stability of a mixture of herbal honey honey Black Seed oil and olive oil was examined Stability tested herbal honey mixture with 4 kinds of ways namely centrifugation cycling test viscosity test and the test particle size Centrifugation test results in a mixture of herbal honey with lecithin concentrations below 5 oil mass not show phase separation The addition of lecithin after a certain threshold will increase the viscosity of the mixture The addition of 5 lecithin total mass of oil into the mix with the oil concentration of 7 5 gives a minimum viscosity cp 4870 Cycling test performed at 4oC refrigerator and oven 40oC for 24 hours each 3 times Cycling test result does not indicate the availability of crystallization or phase separation Analysis of PSA Particle Size Analyzer showed that the addition of lecithin causes enlargement of the particle size The average particle diameter of herbal honey mixture without lecithin is 6 3 mm while herbal honey with lecithin mixture of 1 of the total oil is at a 4 67 mm From this study it can be concluded that the use of lecithin 1 5 of the total mass of oil concentration from 7 5 to 10 can produce stable mixtures

Abstrak :
Penelitian ini membandingkan karakteristik pengabutan dan pembakaran dari campuran minyak nabati dan bahan bakar minyak pada setiap rasio pencampuran nya. Semburan nyala api pada pembakaran yang beroperasi pada tekanan 0,2 hingga 1,2 bar diamati secara optis. Bahan bakar nabati (BBN) memiliki kekentalan (viskositas) yang besar sehingga menjadi kendala dalam proses pembakaran. Karena itu untuk menurunkan viskositas nya perlu dicampur dengan bahan bakar minyak (BBM). Pembakaran yang baik memerlukan proses pengabutan yang baik. Pada penelitian ini proses pengabutan nya menggunakan nosel jet. Pengukuran kualitas pengabutan dan pembakaran dilakukan dengan metode fotografi dan perangkat lunak pemrosesan citra. Hasilnya menunjukkan bahwa rasio campuran BBN dan BBM yang terbaik adalah 40% : 60% untuk semua jenis campuran (minyak jelantah dan solar, minyak curah dan solar, minyak nyamplung dan solar serta minyak curah dan minyak tanah) dan tekanan operasi terbaik adalah 1,2 bar. Pada kondisi tersebut, campuran minyak curah dan minyak solar memiliki rerata suhu nyala yang paling tinggi (391,6oF) dan distribusi partikel aerosol terkecil yang paling tinggi (73%) meskipun masih di bawah BBM murni (100%).

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The spray atomization and combustion characteristic of vegetable oil and fosil fuel are compared to those ratio of mixtures on this paper. The spray flame was contained in an optically accessible combustor which operated at 0,2 - 1,2 bar of air pressure. Vegetable Fuel (VF) contains high viscosity that has been a, constraint in the combustion process; it needs to be mixed with Fosil Fuel (FF) in order to decrease the VF viscosity. A fine atomization process is necessary to fix the combustion. Research of atomization process was tested by using nozzle jet. The atomization and combustion quality were investigate by photographic method and image processing software was used to measure the spray droplet size. As a testing result, ratio mixture of 40% : 60% of VF and FF was good ratio mixtures ( used cooking oil diesel oil, cooking oil and diesel oil, nyamplung oil and diesel fuel, cooking oil and kerosene) compared to others ratio which operated at 1,2 bar of air pressure implying flame temperature. The flame temperatur of cooking oil and diesel oil mixture reached (391,6oF) as the highest mean temperature and distribution of aerosol particle reached (73%) although produced lower than fosil fuel (100%).

Abstrak :
This book presents a wide-ranging review of the latest research and development directions in thermal systems optimization using population-based metaheuristic methods. It helps readers to identify the best methods for their own systems, providing details of mathematical models and algorithms suitable for implementation. To reduce mathematical complexity, the authors focus on optimization of individual components rather than taking on systems as a whole. They employ numerous case studies: heat exchangers; cooling towers; power generators; refrigeration systems; and others. The importance of these subsystems to real-world situations from internal combustion to air-conditioning is made clear. The thermal systems under discussion are analysed using various metaheuristic techniques, with comparative results for different systems. The inclusion of detailed MATLAB® codes in the text will assist readers-researchers, practitioners or students-to assess these techniques for different real-world systems.