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"This book describes recently developed research methods used to study complex problems in fluid engineering, especially optical flow measurement, flow visualization and numerical methods. It includes a wealth of diagrams and images, and the content is presented in a step-by-step manner from beginning to end, helping readers grasp the central points of the book.The book also presents a number of practical cases, illustrating how the research methods covered can be concretely implemented. Lastly, the book offers a valuable point of departure for pursuing further research."

"ABSTRAKTelah dilakukan studi sintesis dan karakteristik zeolit HY dengan pori hirarki menggunakan metode template dan non template sebagai katalis untuk reaksi perengkahan n-heksadekana. Hasil karakterisasi XRD menunjukkan zeolit NaY hirarki dengan metode template dan non template memiliki puncak khas pada 2 teta 6?, 10? dan 11? yang merupakan puncak karakteristik untuk zeolit NaY, walaupun untuk NaY hirarki dengan template memiliki sedikit pengotor yaitu zeolit NaP. Adsorpsi dengan nitrogen menunjukkan bahwa NaY hirarki dengan template dan non template memilki hysterical loop pada P/Po 0,7 ndash; 0,9 yang mengindikasikan adanya pori hirarki pada kedua zeolit tersebut dan hasil pengukuran BET menghasilkan luas permukaan 393,496 m2/g dan 528,82 m2/g untuk NaY hirarki dengan template dan NaY hirarki tanpa template secara berturut-turut. Zeolit NaY hirarki kemudian dimodifikasi dengan metode tukar kation sehingga menghasilkan HY berpori hirarki dan hasil karakterisasi dengan IR-DRS menunjukkan adanya penambahan keasaman pada kedua zeolit HY berpori hirarki. Uji keasaman dengan adsorpsi menggunakan ammonia yang menunjukkan adanya puncak pada bilangan gelombang 1458 cm-1 dan 1443 cm-1 untuk HY hirarki template dan HY hirarki non template dimana bilangan gelombang tersebut merupakan vibrasi NH3 bebas yang teradsorpsi. Zeolit HY berpori hirarki kemudian digunakan sebagai katalis reaksi perengkahan katalitik menggunakan n-heksadekana sebagai senyawa model dan hasil reaksi perengkahan menunjukkan zeolit HY berpori hirarki memiliki selektivitas yang tinggi untuk menghasilkan fraksi gasolin dengan selektivitas sebesar 30 dan 23 dibandingkan dengan zeolit HY mikropori yang memiliki selektivitas sebesar 25 .

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ABSTRACTThe synthesis and characteristic of HY zeolit with pore hierarchy using template and non template method had been done as cracking catalyst on n hexadecane. The XRD pattern showed both the hierarchical NaY zeolit with the template and non template methods had a characteristic peak at 2 teta 6 , 10 and 11 which are the characteristic peaks for NaY zeolits although for the hierarchical NaY the template has slightly impurities NaP zeolit. Adsorption with nitrogen showed that the hierarchical NaY with templates and non templates exhibited hysterical loop on P Po 0.7 0.9 which indicated a hierarchical pore on both zeolits and BET measurements results for NaY hierarchy with template and NaY hierarchy non template has surface area 393.496 m2 g and 528.82 m2 g for NaY hierarchy with template and NaY hierarchy non template, respectively. Zeolit NaY hierarchy was then modified by cation exchange method to form hierarchical HY and characterization results with IR DRS showed the addition of acidity in both zeolit after adsorption using ammonia, which are indicated peak at 1458 cm 1 and 1443 cm 1 for hierarchical HY with template and a non template which the wave numbers for NH3 vibrations. Hierarchical HY zeolits were then used as a catalytic cracking reaction catalyst using n hexadecane as a model compound and the cracking reaction result shows a porous HY porous zeolit having high selectivity to produce a gasolin fraction with selectivity of 30 and 23 compared to a micropore HY zeolit that having selectivity by 25 ."

"The book develops a descriptive mathematical model articulated through continuum mechanics concepts for these non-Newtonian, viscoelastic fluids and turbulent flows. Each complex fluid and flow is examined in this continuum context as well as in combination with the turbulent flow of viscoelastic fluids. Some details are also explored via kinetic theory, especially viscoelastic fluids and their treatment with the Boltzmann equation. Both solution and modeling strategies for turbulent flows are laid out using continuum concepts, including a description of constructing polynomial representations and accounting for non-inertial and curvature effects."

"This book comprises select proceedings of the International Conference on Future Learning Aspects of Mechanical Engineering (FLAME 2018). The book gives an overview of recent developments in the field of thermal and fluid engineering, and covers theoretical and experimental fluid dynamics, numerical methods in heat transfer and fluid mechanics, different modes of heat transfer, multiphase transport and phase change, fluid machinery, turbo machinery, and fluid power. The book is primarily intended for researchers and professionals working in the field of fluid dynamics and thermal engineering. "

"Sistem propulsi adalah salah satu sistem utama yang mendukung operasional kapal. Pada umumnya, kualitas sistem propulsi yang diaplikasikan pada sebuah kapal ditunjukkan oleh efisiensi kerja yang dihasilkan. Ducted propeller merupakan salah satu sistem propulsi yang banyak digunakan di kapal untuk meningkatkan efisiensi dan gaya dorong. Hal ini dipengaruhi oleh nozzle yang digunakan untuk melingkupi propeller sehingga dapat meningkatkan kecepatan aliran air.Penelitian ini dilakukan untuk mengetahui pengaruh pembesaran ukuran diameter ducted propeller nozzle terhadap parameter hidrodinamis kapal, yaitu koefisien gaya dorong, koefisien torsi, dan efisiensi open water, sehingga digunakan dua model ducted propeller nozzle dengan diameter berbeda untuk mengetahui pengaruh yang ditimbulkan. Pengambilan data dilakukan melalui program Computational Fluid Dynamics dengan pengaturan program simulasi yang telah divalidasi terhadap Diagram Wageningen Series B4-60. Hasil penelitian menunjukkan bahwa pada advance ratio 0,54, ducted propeller nozzle dengan diameter 1,4 kali dari propeller menghasilkan efisiensi open water 5 lebih besar dibanding sistem propulsi open water.

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Propulsion system is one of the main systems that support ship operations. The quality of propulsion system applied in a ship can be shown by open water efficiency. Ducted propellers are one of the propulsion systems that most widely used on board to improve efficiency and thrust. This is influenced by the nozzle used to enclose the propeller for increasing velocity of water flow.

This research is conducted to know effect of diameter ducted propeller nozzle dimension increasing to ship hydrodynamic parameters, as thrust coefficient, torque coefficient, and open water efficiency, so used two models of ducted propeller nozzle with different diameter to know the effect. Data retrieval is done through Computational Fluid Dynamics program by setting of the simulation program validated against Wageningen Series B4 60 Diagram. The results point that in advance ratio 0.54, ducted propeller nozzle with a diameter 1.4 times of the propeller resulted open water efficiency 5 larger than the open water propulsion system."

"Kebutuhan udara bersih menjadi keharusan di ruang kelas terlebih di era pandemi kemarin. Oleh karena itu dilakukan simulasikan laju aliran di kelas dengan menggunakan air purifier dengan tujuan untuk melihat persebaran dan distribusi dari Age of Air di ruang kelas tersebut. Metode dilakukan dengan pengukuran geometri langsung yang selanjutnya dibuat 3D Model, lalu disimulasikan di ANSYS CFX 2019. Simulasi Computational Fluid Dynamics divariasikan mulai dari ruang kelas tanpa air purifier, 2-unit air purifier dengan perbedaan penempatan dengan laju aliran pada kondisi sebenarnya dan 2 purifier dengan aliran menggunakan perhitungan dari 5 Air Change per Hour. Hasil yang diukur berupa grafik yang didapatkan dari titik koordinat yang tersebar di kelas dan visual dari kontur Age of Air dari bidang area global. Grafik menunjukan bahwa nilai Age of Air paling kecil berada di variasi 2 purifier kondisi sebenarnya dengan geometri B. Sementara nilai Age of Air terbesar dipegang oleh variasi nol purifier dan 2 purifier dengan besar aliran dari perhitungan 5 Air Change per Hour. Kecepatan tertinggi dipegang oleh kedua tipe 2 purifier kondisi sebenarnya pada geometri A dan B, dengan pada geometri A memiliki nilai terbesar pada titik 2, dan geometri B pada titik 5. Kecepatan terendah pada titik 1,3,5 dipegang oleh 2 purifier 5 Air Change per Hour dan pada titik 2,4 dipegang oleh variasi nol purifier Hal ini membuktikan terjadinya sirkulasi dengan disuplainya udara segar ke ruangan dengan visual yang ditunjukan di pintu depan dimana terdapat dua aliran yang memasuki dan keluar ruangan.

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The need for clean air is a must in the classroom, especially in the era of the pandemic. Therefore, it is necessary to simulate the flow rate in the classroom using an air purifier to see the distribution and distribution of Age of Air in the classroom. The method is carried out by building a 3D model, then simulated in ANSYS CFX 2019. The Computational Fluid Dynamics simulations are varied starting from a classroom without an air purifier, 2-unit air purifier with different placements with the flow rate in actual conditions, and 2 purifiers with flow using a calculation of 5 Air Changes per Hour. The measured results are in the form of graphs obtained from coordinate points spread over the class and visuals of Age of Air contours from the global area. The graph shows that the smallest Age of Air value is in the variation of 2 purifiers in actual conditions with geometry B. Meanwhile, the largest Age of Air values ​​are held by variations of zero purifiers and 2 purifiers with a large flow from the calculation of 5 Air Changes per Hour. The highest speed is held by both type 2 purifiers in real conditions at geometry A and B, with geometry A having the largest value at point 2, and geometry B at point 5. The lowest speed at point 1,3,5 is held by 2 purifiers 5 Air Change per hour and at point 2.4 it is held by zero variation of purifier. This proves that circulation occurs by supplying fresh air to the room visually shown at the front door where there are two streams entering and leaving the room."