3,552 research outputs found

    Noor Azizi Ismail dilantik Timbalan Naib Canselor UUM

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    ALOR SETAR 3 Julai ­Dekan Othman Yeop Abdullah Graduate School of Business (OYAGSB), Prof. Dr. Noor Azizi Ismail dilantik sebagai Timbalan Naib Canselor (Penyelidikan dan Inovasi) Universiti Utara Malaysia (UUM) berkuat kuasa 1 Ogos ini

    Inter-phase mass transfer in turbulent liquid-liquid dispersions: A comparative analysis of models

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    A comparative evaluation of eight models used to predict the dispersed phase mass transfer coefficient was undertaken using recent drop size and mass transfer data obtained under well known and controlled hydrodynamic conditions encountered in screen-type static mixers. A wide range of experimental conditions were covered (e[open]= 1.5-117. W-kg, φ= 0.1-0.47) thereby allowing for proper assessment of the strength and weaknesses of each model. All models failed to properly predict the experimental results over a wide range of design and operating conditions with the exception of those that contain a system-specific adjustable fitting parameter. Although these models yielded reasonably acceptable order-of-magnitude predictions, they could not accurately account for the variations in the different parameters investigated. This shows that proper understanding of the various factors affecting the dispersed phase mass transfer coefficient is still incomplete and highlights the need for phenomenological models that can account for the various physicochemical and hydrodynamic conditions on the dispersed-phase mass transfer coefficient. © 2011 Elsevier B.V.AlTaweel AM, 1996, CHEM ENG RES DES, V74, P445; Al Taweel A.M., 1984, 12 AUSTR CHEM ENG C, V1, P487; Al Taweel AM, 2007, CHEM ENG RES DES, V85, P760, DOI 10.1205-cherd06180; Alves SS, 2004, CHEM ENG PROCESS, V43, P823, DOI 10.1016-S0255-2701(03)00100-4; Andersson R, 2004, CHEM ENG SCI, V59, P4911, DOI 10.1016-j.ces.2004.07.084; Asghar D. Molaei, 2002, AICHE J, V48, P2230; Azizi F, 2011, CHEM ENG COMMUN, V198, P726, DOI 10.1080-00986445.2011.532748; Azizi F, 2011, CHEM ENG J, V166, P715, DOI 10.1016-j.cej.2010.11.050; Azizi F., 2005, RELIABLE DESIGN IND; Bart HJ, 2003, CHEM ENG TECHNOL, V26, P723, DOI 10.1002-ceat.200306102; Botello-Alvarez E.J., 2004, IND ENG CHEM RES, V43, P6527; Bouaifi M, 2001, CHEM ENG PROCESS, V40, P97, DOI 10.1016-S0255-2701(00)00129-X; BOURNE JR, 1991, CHEM ENG J BIOCH ENG, V47, P155, DOI 10.1016-0300-9467(91)85021-M; Briassulis G, 2001, J FLUID MECH, V432, P219; CAMURDAN MC, 1989, CAN J CHEM ENG, V67, P554; COULALOGLOU CA, 1977, CHEM ENG SCI, V32, P1289, DOI 10.1016-0009-2509(77)85023-9; Ebrahimi SSS, 2009, J CHEM ENG JPN, V42, P10; HANDLOS AE, 1957, AICHE J, V3, P127, DOI 10.1002-aic.690030121; Henschke M, 1999, AICHE J, V45, P2079, DOI 10.1002-aic.690451006; HSIA MA, 1980, CHEM ENG J BIOCH ENG, V20, P225, DOI 10.1016-0300-9467(80)80007-4; JOHNSON AI, 1960, AICHE J, V6, P145, DOI 10.1002-aic.690060128; Kang HS, 2003, J FLUID MECH, V480, P129, DOI 10.1007-S0022112002003579; KRONIG R, 1950, APPL SCI RES, V2, P142; Kumar A, 1999, CHEM ENG RES DES, V77, P372, DOI 10.1205-026387699526359; Laakkonen M, 2006, CHEM ENG SCI, V61, P218, DOI 10.1016-j.ces.2004.11.066; Maass S, 2012, CHEM ENG SCI, V70, P146, DOI 10.1016-j.ces.2011.08.027; Newman AB, 1931, T AM INST CHEM ENG, V27, P310; Noh H.S., 1984, AICHE J, V30, P120; Paul E. L., 2004, HDB IND MIXING SCI P; Rahbar A, 2011, CAN J CHEM ENG, V89, P508, DOI 10.1002-cjce.20448; RIBEIRO LM, 1995, COMPUT CHEM ENG, V19, P333, DOI 10.1016-0098-1354(94)00054-R; Schmidt SA, 2006, CHEM ENG SCI, V61, P246, DOI 10.1016-j.ces.2005.02.075; Skelland P.A.H., 1981, AICHE J, V27, P99; SLATER MJ, 1988, CHEM ENG SCI, V43, P233, DOI 10.1016-0009-2509(88)85036-X; SLATER MJ, 1995, CAN J CHEM ENG, V73, P462; STEINER L, 1986, CHEM ENG SCI, V41, P1979, DOI 10.1016-0009-2509(86)87114-7; Vasquez V., 1997, MINER PROCESS EXTR M, V17, P239, DOI 10.1080-08827509708914150; Venneker BCH, 2002, AICHE J, V48, P673, DOI 10.1002-aic.690480404; Yadav RL, 2008, CHEM ENG J, V138, P389, DOI 10.1016-j.cej.2007.06.015; YOUNG CH, 1989, CHEM ENG SCI, V44, P2355, DOI 10.1016-0009-2509(89)85168-122

    Masjid Azizi sebagai peninggalan sejarah kesultanan langkat, Sumatera Timur

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    Skripsi ini menjelaskan terkait peninggalan sejarah berupa material pada masa Kesultanan Langkat dengan studi kasus Masjid Azizi. Peninggalan sejarah merupakan suatu instrumen penting dalam menelusuri suatu peristiwa dan sebagai bukti nyata dari sejarah yang terjadi seperti halnya Masjid Azizi ini. Penulisan dan pendokumentasian peninggalan sejarah penting dilakukan untuk menjaga kelestarian dan nilai sejarah yang dimiliki sebagai bentuk kekuatan dan jati diri bangsa. Masjid Azizi merupakan peninggalan sejarah Kesultanan Langkat yang berdiri pada tanggal 12 Rabiul Awal tahun 1320 H. bertepatan dengan tanggal 13 Juni tahun 1902 M. Teknik penelitian yang penulis lakukan adalah melalui pendekatan sejarah dengan metode penelitian berupa heuristik (pengumpulan data), kritik (ekstern dan intern), interpretasi, analisis arsitektur (morfologi, stilistik, teknologi, lingkungan, akulturasi budaya) dan historiografi (penulisan sejarah). Teknik pengumpulan data yang penulis lakukan ialah melalui wawancara, studi pustaka dan observasi langsung ke lokasi objek penelitian. Berdasarkan penelitian yang penulis lakukan ditemukan bahwasanya Masjid Azizi ini memiliki kekayaan seni arsitektur dengan akulturasi budaya yang menarik dan megah. Berbagai seni arsitektur dari lokal maupun luar menyatu pada bangunan ini. Di antaranya seni arsitektur dari Eropa, Turki, Arab dan Melayu. Masjid Azizi ini merupakan bukti nyata akan kejayaan dan keeksistensian keIslaman Kesultanan Langkat dan telah resmi menjadi benda cagar budaya pada tahun 2010 dengan nomor identitas masjid 01.5.02.05.11.00000

    Molothrognathus azizi Ueckermann & Khanjani 2003

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    <i>Molothrognathus azizi</i> Ueckermann & Khanjani, 2003 <p> <i>Molothrognathus azizi</i> Ueckermann & Khanjani, 2003: 295.</p> <p> <b>Distribution</b> – Iran (Ueckermann and Khanjani 2003).</p> <p> <b>Material examined</b> – One female and one deutonymph at 3600 m a.s.l., 24 July 2019 were collected from soil and litter by Hossein Ziaei-rad.</p>Published as part of <i>Paktinat-Saeij, Saeid, Damavandian, Mohammad Reza & Ziaei-rad, Hossein, 2023, The first report on the Bdelloidea and Raphignathoidea mites (Acari: Trombidiformes: Prostigmata) from the heights of Damavand Mountain, Iran, pp. 587-592 in Persian Journal of Acarology 12 (4)</i> on page 589, DOI: 10.22073/pja.v12i4.83041, <a href="http://zenodo.org/record/10943413">http://zenodo.org/record/10943413</a&gt

    Benda Cagar Budaya Sebagai Atraksi Wisata Budaya di Kawasan Masjid Azizi Tanjung Pura

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    Kabupaten Langkat memiliki benda cagar budaya sebagai atraksi wisata budaya yang terletak di kota Tanjung Pura. Benda cagar budaya tersebut merupakan peninggalan Kesultanan Langkat yang dapat dilihat di kawasan Masjid Azizi. Pembuatan kertas karya ini untuk memperkenalkan benda cagar budaya yang berada di kawasan Masjid Azizi dan menjadikannya sebagai atraksi wisata budaya. Pembuatan kertas karya ini menggunakan pendekatan kualitatif dengan menggunakan metode deskriptif. Hasil penelitian menunjukan bahwa banyak sebaran benda cagar budaya di kawasan Masjid Azizi namun banyak wisatawan belum mengenal benda cagar budaya Kesultanan Langkat yang berada di kawasan Majid Azizi.45 HalamanKertas Karya Diplom

    Strong couplings of negative and positive parity nucleons to the heavy baryons and mesons

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    Azizi, Kazem (Dogus Author)The strong coupling form factors related to the strong vertices of the positive and negative parity nucleons with the heavy Lambda(b[c])[Sigma b[c]] baryons and heavy B*[D*] vector mesons are calculated using a threepoint correlation function. Using the values of the form factors at Q(2) = -m(meson)(2), we compute the strong coupling constants among the participating particles

    Hibriditas Budaya pada Bangunan Masjid Azizi, Peninggalan Sejarah Kesultanan Langkat

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    Masjid Azizi merupakan peninggalan sejarah Kesultanan Langkat yang berdiri pada tanggal 12 Rabiul Awal tahun 1320 H. bertepatan dengan tanggal 13 Juni tahun 1902 M. Masjid merupakan salah satu bentuk tinggalan budaya material pada periode Islam. Tinggalan budaya material merupakan suatu instrumen penting dalam menelusuri suatu peristiwa dan sebagai bukti nyata dari sejarah yang terjadi. Penulisan dan pendokumentasian tinggalan budaya material penting dilakukan untuk menjaga kelestarian dan nilai sejarah yang dimiliki sebagai bentuk kekuatan dan jati diri bangsa. Penelitian ini mencoba menjelaskan dan mengungkap terkait makna bentuk bangunan dan ragam hias Masjid Azizi serta peristiwa apa yang melatarbelakanginya. Penelitian ini menggunakan pendekatan arkeologis dengan metodekualitatif dan tahap-tahap berupa pengumpulan data, pengolahan data, analisis data dan interpretasi atau penafsiran data. Penelitian ini menggunakan analisis arkeologi berupa analisis morfologi, ragam hias dan kontekstual. Teknik pengumpulan data yang penulis lakukan ialah melalui wawancara, studi pustaka dan observasi langsung ke lokasi objek penelitian. Berdasarkan penelitian yang penulis lakukan, ditemukan bahwasanya Masjid Azizi ini memiliki kekayaan seni arsitektur dengan hibriditas budaya yang menarik dan megah sehingga seolah menjadi identitas baru pada masjid kesultanan saat itu. Berbagai seni arsitektur dari lokal maupun luar menyatu pada bangunan ini. Di antaranya seni arsitektur dari Eropa, Turki, Arab, India, Cina dan Melayu. Masjid Azizi ini merupakan bukti nyata akan kejayaan dan keeksistensian ke-Islaman Kesultanan Langkat

    Application of super absorbent polymer and plant mucilage improved essential oil quantity and quality of Ocimum basilicum var. keshkeni luvelou

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    One of the major factors limiting the production of medicinal plants in arid and semi-arid areas is water deficit or drought stress. One-third of the land in the world is arid and semi-arid and is inhabited by nearly 4 × 108 people. Ocimum basilicum (sweet basil) is a valuable medicinal plant that is sensitive to water deficit, and water shortage negatively affects sweet basil yield and quality. Water availability in the root zone of basil could ameliorate the negative effects of water shortage. To the best of our knowledge, although the effects of hydrophilic polymers (HPs) have been studied in different agricultural crops, the effects of HP application in medicinal plants have not been previously investigated. This investigation was conducted to explore the effects on water use efficiency when using StockosorbΠ(STS) and psyllium seed mucilage (PSM) as hydrophilic polymers (HPs) and the effects of these HPs on essential oil quality, quantity, and yield. The research was set up in a factorial experiment on the basis of completely randomized block design with three replications. We used two HPs, STS (industrial) and PSM (herbal), with two methods of application (mixed with soil, mixed with soil + root) at four concentrations (0%, 0.1%, 0.2%, and 0.3% (w/w)). Results showed that the STS and PSM significantly increased the dry herb yield (both shoot and root) in comparison to the control, and the improving effect was higher when these HPs were mixed with soil + root. The highest dry herb yield (6.74 and 3.68 g/plant for shoot and root, respectively) was detected in the PSM at 0.1% mixed with soil + root. There was not any significant difference in dry herb yield among PSM (0.1%), PSM (0.2%), and STS (0.2%) when mixed with soil + root. Soil application of PSM and soil + root application of STS at a concentration of 0.3% increased the Essential Oil (EO) content almost three-fold in comparison to the control (0.5% and 0.52% to 0.18% v/w, respectively). The maximum essential oil yield was recorded in plants treated with STS (0.2% in) or PSM (0.1%) by soil + root application (0.21 and 0.19 mL/plant, respectively). PSM at concentrations of 0.1% and 0.2% (mixed with soil + root) showed the highest water use efficiency (1.91 and 1.82 g dry weight (DW)/L H2O, respectively). STS mixed with soil also significantly improved water use efficiency (WUE) in comparison to the control. The application of these HPs improved the quality of sweet basil essential oil by increasing the linalool and decreasing the eugenol, epi-α-cadinol, and trans-α-bergamotene content

    Modifications on nucleon parameters at finite temperature

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    Azizi, Kazem (Dogus Author)Taking into account the additional operators coming up at finite temperature, we investigate the mass and residue of the nucleon in the framework of thermal QCD sum rules. We observe that the mass and residue of the nucleon are initially insusceptible to the increase of temperature, however, after a certain temperature, they start to fall with increasing the temperature

    accelerated test

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    test results at sharif university towing tan
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