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Aerosol Science and Technology Volume 40, 2006 - Issue 10
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INSTRUMENT DEVELOPMENT AND EVALUATION

Design of a Slot Nanoparticle Virtual Impactor

Prachi Middha* Department of Mechanical Engineering, University of Delaware, Newark, Delaware, USA
&
Anthony S. Wexler Dr. Departments of Mechanical and Aeronautical Engineering, Civil and Environmental Engineering, and Land, Air and Water Resources, University of California, Davis, California, USA
Pages 737-743 | Received 14 Apr 2005, Accepted 28 Feb 2006, Published online: 01 Feb 2007

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Read on this site (4)

D. Kiesler, T. Bastuck, M. K. Kennedy & F. E. Kruis. (2019) Development of a high flow rate aerodynamic lens system for inclusion of nanoparticles into growing PVD films to form nanocomposite thin films. Aerosol Science and Technology 53:6, pages 630-646.
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Xin Heng, Jinghai Yi & Donovan B. Yeates. (2019) Fluidic and thermal properties of heliox enable the efficient generation and delivery of high concentrations of solid-phase, fine particle aerosols from viscous liquids. Aerosol Science and Technology 53:6, pages 609-629.
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IgorV. Novosselov & PeterC. Ariessohn. (2014) Rectangular Slit Atmospheric Pressure Aerodynamic Lens Aerosol Concentrator. Aerosol Science and Technology 48:2, pages 163-172.
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Shishan Hu & AndrewR. McFarland. (2008) Circumferential-Slot Virtual Impactors with Stable Flow. Aerosol Science and Technology 42:9, pages 748-758.
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Articles from other publishers (10)

Yuhuan Wang, Haiming Yu, Xianhang Yang, Sen Xie, Yuxi Ye, Chuangen Hou & Tianyuan Gao. (2023) Study on the effect law of virtual impact separator efficiency based on multi-factor orthogonal test. Process Safety and Environmental Protection 171, pages 119-131.
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Ruofei Wang, Heng Zhao, Xingbo Wang & Jiaqi Li. (2023) Designing a Microfluidic Chip Driven by Carbon Dioxide for Separation and Detection of Particulate Matter. Micromachines 14:1, pages 183.
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Stephanie M. Eilts, Tomoya Tamadate, Mckenna E. Relling, Ian A. Marabella, Christopher J. HoganJr.Jr. & Bernard A. Olson. (2023) Virtual impaction in compressible flows with pressure recovery. Journal of Aerosol Science 167, pages 106076.
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Muhammad Zeeshan Zahir, Jun-Hyung Lim, Seung-Yoon Noh & Se-Jin Yook. (2021) Development of electric virtual impactor with variable sampling particle size range. Advanced Powder Technology 32:10, pages 3456-3464.
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Jun-Hyung Lim, Daeui Park & Se-Jin Yook. (2020) Development of a multi-slit virtual impactor as a high-volume bio-aerosol sampler. Separation and Purification Technology 250, pages 117275.
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Joseph L. Woo, Neha Sareen, Allison N. Schwier & V. Faye McNeill. (2019) Concept for an electrostatic focusing device for continuous ambient pressure aerosol concentration. Atmospheric Measurement Techniques 12:6, pages 3395-3402.
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Po-Kai Chang, Ta-Chih Hsiao, Guenter Engling & Jyh-Chen Chen. (2019) Computational fluid dynamics study of the effects of flow and geometry parameters on a linear-slit virtual impactor for sampling and concentrating aerosols. Journal of Aerosol Science 131, pages 28-40.
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Min-gu Kim, Yong-Ho Kim, Hong-Lae Kim, Chul Woo Park, Yun-Haeng Joe, Jungho Hwang & Yong-Jun Kim. (2010) Wall loss reduction technique using an electrodynamic disturbance for airborne particle processing chip applications. Journal of Micromechanics and Microengineering 20:3, pages 035034.
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Dongho Park, Yong-Ho Kim, Chul Woo Park, Jungho Hwang & Yong-Jun Kim. (2009) New bio-aerosol collector using a micromachined virtual impactor. Journal of Aerosol Science 40:5, pages 415-422.
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Yong-Ho Kim, Dongho Park, Jungho Hwang & Yong-Jun Kim. (2009) A hybrid chip based on aerodynamics and electrostatics for the size-dependent classification of ultrafine and nano particles. Lab on a Chip 9:18, pages 2722.
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