INDUSTRIAL GASES CHEMICAL ENGINEERING 140 CHEMICAL PROCESS INDUSTRIES 2ND SEM A.Y. 2012-2013 This report is submitted to Engr. Antonio Rivera‚ in partial fulfillment of the requirements of Chemical Engineering 140‚ Chemical Process Industries (2nd sem AY 1213). Submitted by: ________________________ Jc Justine Quintos Received by: _________________________ Engr. Antonio Rivera Jc Justine Quintos 2008-09038 Chemical Engineering 140 Chemical Process Industries INDUSTRIAL GASES
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POTASSIUM CARBONATE FROM COCOA HUSK ASH A Process Engineering Project Report Presented to the Department of Chemical Engineering Faculty of Chemical and Materials Engineering College of Engineering Kwame Nkrumah University of Science and Technology‚ Kumasi By AMANING OSEI EMMANUEL ATTIPOE EDEM KODZO BOAKYE KWAME JUWAH CHUKWUJINDU AWELE OMENOGOR ANWULI ROSEMARY in Partial Fulfillment of the Requirements for the course Process Engineering Project April 2013. TABLE OF CONTENTS 1
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DardenBusinessPublishing:209673 UVA-OM-1510 Rev. May 19‚ 2014 This document is authorized for use only by Christopher Frank at Georgia Institute of Technology. Please do not copy or redistribute. Contact permissions@dardenbusinesspublishing.com for questions or additional permissions. CORNING INCORPORATED: ACCELERATING 160 YEARS OF INNOVATION Less than six months into his new role as innovation officer for Corning Incorporated‚ Marty Curran was worried. His previous role‚ as manager of Corning’s
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separation‚” Journal of Membrane Science‚ vol. 193‚ no. 1‚ pp. 1–18‚ 2001. View at Publisher ·View at Google Scholar · View at Scopus 14 15. J. A. Ritter and A. D. Ebner‚ “Carbon dioxide separation technology—R&D needs for the chemical and petrochemical industries‚” Chemical Industry Vision 2020‚ 2007. 16. T. Visser and M. Wessling‚ “When do sorption-induced relaxations in glassy polymers set in?”Macromolecules‚ vol. 40‚ no. 14‚ pp. 4992–5000‚ 2007. View at Publisher · View at Google Scholar· View
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Chemical Engineering and Processing 41 (2002) 551– 561 www.elsevier.com/locate/cep Evaluation of steam jet ejectors Hisham El-Dessouky *‚ Hisham Ettouney‚ Imad Alatiqi‚ Ghada Al-Nuwaibit Department of Chemical Engineering‚ College of Engineering and Petroleum‚ Kuwait Uni6ersity‚ P.O. Box 5969‚ Safat 13060‚ Kuwait Received 4 April 2001; received in revised form 26 September 2001; accepted 27 September 2001 Abstract Steam jet ejectors are an essential part in refrigeration and air conditioning
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roller mill ) is suitable for grinding the barite‚ limestone‚ kaolin‚ ceramics and slag with Mohs hardness below scale 9.3 and 280-odd sorts of non-inflammable and non-explosive stuff. Especially in the field of mining‚ metallurgical industrial‚ chemical engineering and building material for high fine powder generation and processing. The product size is adjustable in the range of 80-425 (1000 the finest) meshes. It is possible to product 30-80 mesh coarse powder through special device in the machine
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equilibrium stage (HETP) is lower for packed columns. (A) Chemical engineering design; (i) Component specification (ii) Calculation of liquid and gas flow rates (iii) Selection of packing (iv) Hold-down plates (v) Packing support (vi) Determination of column height (vii) Determination of column diameter (viii) Height of packing (ix) Wetting rate (x) Absorption factor (xi) Average gas velocity in the packing (B) Mechanical engineering design; (i) Material of construction (ii)
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COMMENTARY Aseptic Processing Contamination Case Studies and the Pharmaceutical Quality System Richard L. Friedman Food & Drug Administration‚ Center for Drug Evaluation & Research‚ Division of Manufacturing & Product Quality ABSTRACT: This paper summarizes parenteral drug contamination case studies presented at industry conferences and a Food and Drug Administration advisory committee meeting in the period of 2000-2004. CGMP deficiencies associated with each contamination event are discussed. The
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Journal of Food Engineering 73 (2006) 320–326 www.elsevier.com/locate/jfoodeng Determination and correlation of heat transfer coefficients in a falling film evaporator ´ J.S. Prost a‚ M.T. Gonzalez a b a‚b ‚ M.J. Urbicain a‚b‚* ´ ´ ´ Planta Piloto de Ingenierıa Quımica (PLAPIQUI)‚ Camino La Carrindanga Km 7‚ (8000) Bahıa Blanca‚ Argentina ´ ´ ´ Departamento de Ingenierıa Quımica‚ Universidad Nacional del Sur (UNS)‚ Alem 1253‚ (8000) Bahıa Blanca‚ Argentina Received 23 July 2004; accepted
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and Cai‚ 2012) Bibliography: Pask‚ S.‚ Nuyken‚ O intensification technology for polymers and particles. Polymer Chemistry‚ 3(10)‚ pp.2698—2707 In-text: (Stankiewicz and Moulijn‚ 2004) Bibliography: Stankiewicz‚ A. and Moulijn‚ J. (2004). Re-engineering the chemical processing plant. New York: M In-text: (Arpornwichanop et al.‚ 2009) Bibliography: Arpornwichanop‚ A.‚ Koomsup‚ K.‚ Kiatkittipong‚ W.‚ Praserthdam‚ P (2009). Production of< i> n</i>-butyl acetate from dilute acetic acid and< i> n</i>-butanol
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