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Bibliografías temáticas / Flash nano-precipitation

Literatura académica sobre el tema "Flash nano-precipitation"

Autor: Grafiati

Publicado: 14 de marzo de 2023

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Artículos de revistas sobre el tema "Flash nano-precipitation"

1

Lavino, Alessio D., Nicodemo Di Pasquale, Paola Carbone y Daniele L. Marchisio. "A novel multiscale model for the simulation of polymer flash nano-precipitation". Chemical Engineering Science 171 (noviembre de 2017): 485–94. http://dx.doi.org/10.1016/j.ces.2017.04.047.

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2

Liu, Ying, Chungyin Cheng, Ying Liu, Robert K. Prud’homme y Rodney O. Fox. "Mixing in a multi-inlet vortex mixer (MIVM) for flash nano-precipitation". Chemical Engineering Science 63, n.º 11 (junio de 2008): 2829–42. http://dx.doi.org/10.1016/j.ces.2007.10.020.

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3

Al-Rawajfeh, Aiman E., Hassan E. S. Fath y A. A. Mabrouk. "Integrated Salts Precipitation and Nano-Filtration as Pretreatment of Multistage Flash Desalination System". Heat Transfer Engineering 33, n.º 3 (febrero de 2012): 272–79. http://dx.doi.org/10.1080/01457632.2011.562776.

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4

Rajbhandari Nyachhyon, Armila, Sanoj Hajam y Hira Mani Trital. "Nano zinc oxide additive for the enhancement of lubricant properties". Scientific World 15, n.º 15 (14 de junio de 2022): 26–32. http://dx.doi.org/10.3126/sw.v15i15.45643.

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Zinc oxide (ZnO) nano additives were successfully synthesized in laboratory by precipitation technique. The XRD showed crystalline nature of ZnO with the average crystallite size of 16 nm. The stretching band of ZnO was found at around 400 cm-1 to 600 cm-1 wave number in FTIR. The prepared nano particle have been used as nano additive and sodium lauryl sulphate (SLS) as surfactant, in base oil to improve physio-chemical parameter of lubricants. The result revealed that the additive blended base oil (lubricant) has shown excellent lubrication properties. The higher kinematic viscosity of 90.72 and 10.40 were obtained at 40oC and 100o C respectively. Similarly, viscosity index were found to be 96 which was improved indicating the use of lubricant in slightly high temperature is possible. The pour point was found to be decreased to -9.2oC which was quite significant and could be used in cold environment. The flash point was also found to be increased from 225o C to 230oC which indicated that the prepared nano additive ZnO acts as flash point enhancer. The corrosion test done by copper strip comparative method and was found to be 1b for additive indicating the non-corrosive nature. The absence of moisture and pH around the neutral range 6.65 showed that the additive blended lubricant is not harmful for machinery devices.

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5

Shrestha, Buddha Kumar, Hira Mani Trital y Armila Rajbhandari. "Synthesis and Characterization of CuO-ZnO Nano Additive for Lubricant". Scientific World 13, n.º 13 (5 de agosto de 2020): 33–36. http://dx.doi.org/10.3126/sw.v13i13.30504.

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A mixed metal oxide (CuO-ZnO) additives has been successfully synthesized in laboratory by co-precipitation technique. The optimum ratio of CuO and ZnO in mixed metal oxide was found to be 1:1. The sodium lauryl sulfate (SLS) has been used as surfactant. The obtained material was found to be crystalline having crystalline size of 18 nm. The stretching band in FTIR spectra at around 1072 cm-1 to 750 cm-1 and around 600 cm-1 indicates the presence of Zn-O and Cu-O bonds. As prepared nano-particles have been used as nano additive in base oil to improve physio-chemical parameters of lubricants. The results revealed that the additive blended base oil (lubricant) has shown excellent lubrication properties. The higher kinematic viscosity of 33.0504 and 6.0158 at 40°C and 100°C respectively showed that as prepared additive blended lubricant is of ISO-32 category according to ISO grading system for lubricants. Similarly, viscosity index was found to be improved from 101 to 129. The pour point was found to be significantly decreased from -6°C to -24°C. So it can be used as good pour point depressant and could be used even in the extreme cold environment condition. The flash point was found to be increased from 215°C to 220°C indicating that the prepared mixed metal oxide (CuO-ZnO) acts as flash point enhancer. The copper strip corrosion rating was found to be 1b for additive indicating the non corrosive nature. The absence of moisture and pH around the neutral range 6.18 showed the additive blended lubricant is not harmful for machinery devices.

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6

Lavino, Alessio D., Marco Ferrari, Antonello A. Barresi y Daniele Marchisio. "Effect of different good solvents in flash nano-precipitation via multi-scale population balance modeling-CFD coupling approach". Chemical Engineering Science 245 (diciembre de 2021): 116833. http://dx.doi.org/10.1016/j.ces.2021.116833.

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7

Dou, Jiahong, Fang Zhao, Wenting Fan, Zhonghang Chen y Xuhong Guo. "Preparation of non-spherical vaterite CaCO3 particles by flash nano precipitation technique for targeted and extended drug delivery". Journal of Drug Delivery Science and Technology 57 (junio de 2020): 101768. http://dx.doi.org/10.1016/j.jddst.2020.101768.

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8

Xue, Xueyan, Feng Yu, Banghua Peng, Gang Wang, Yin Lv, Long Chen, Yongbin Yao, Bin Dai, Yulin Shi y Xuhong Guo. "One-step synthesis of nickel–iron layered double hydroxides with tungstate acid anions via flash nano-precipitation for the oxygen evolution reaction". Sustainable Energy & Fuels 3, n.º 1 (2019): 237–44. http://dx.doi.org/10.1039/c8se00394g.

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Layered double hydroxide materials with two-dimensional structures and rich diversity have proved to be very promising candidates for non-precious metal electrocatalysis of the oxygen evolution reaction.

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9

Wang, Chao, Feng Yu, Mingyuan Zhu, Yulin Shi, Jianming Dan, Yin Lv, Xuhong Guo y Bin Dai. "Up-scaled flash nano-precipitation production route to develop a MnOx–CeO2–Al2O3 catalyst with enhanced activity and H2O resistant performance for NOx selective catalytic reduction with NH3". Chemical Engineering Research and Design 134 (junio de 2018): 476–86. http://dx.doi.org/10.1016/j.cherd.2018.04.036.

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10

Pinkerton, Nathalie M., Khadidja Hadri, Baptiste Amouroux, Leah Behar, Christophe Mingotaud, Mathias Destarac, Ihor Kulai, Stéphane Mazières, Stefan Chassaing y Jean-Daniel Marty. "Quench ionic flash nano precipitation as a simple and tunable approach to decouple growth and functionalization for the one-step synthesis of functional LnPO4-based nanoparticles in water". Chemical Communications 54, n.º 68 (2018): 9438–41. http://dx.doi.org/10.1039/c8cc04163f.

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Capítulos de libros sobre el tema "Flash nano-precipitation"

1

Lee, Victoria E., Douglas M. Scott, Robert K. Prud'homme y Rodney D. Priestley. "Chapter 3. Flash Nano-precipitation and -complexation to Produce Polymer Colloids". En Soft Matter Series, 61–99. Cambridge: Royal Society of Chemistry, 2019. http://dx.doi.org/10.1039/9781788016476-00061.

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