of U.S. industry through improvements in energy and environmental performance A CKNOWLEDGEMENTS : The Industrial Technologies Program would like to thank Andrew McMullan‚ Veritech Inc.‚ for writing this BestPractices Steam Technical Brief‚ and the BestPractices Steam technical subcommittee for reviewing the publication. The Opportunities Biomass Program Using domestic‚ plant-derived resources to meet our fuel‚ power‚ and chemical needs Building Technologies Program Homes‚ schools
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In an industrial hydrodesulphurization unit‚ such as in a refinery‚ the hydrodesulphurization reaction takes place in a fixed-bed reactor at elevated temperatures ranging from 300 to 400 °C and elevated pressures ranging from 30 to 130 atmospheres of absolute pressure‚ typically in the presence of a catalyst consisting of an alumina base impregnated with cobalt and molybdenum (usually called a CoMo catalyst). • Occasionally‚ a combination of nickel and molybdenum (called NiMo) is used‚ in addition
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LECTURE 1: BACKGROUND AND INTRODUCTION Adonis Yatchew yatchew@chass.utoronto.ca www.economics.utoronto.ca/yatchew 150 St. George Street‚ Room 278 © A. Yatchew 2 Energy and Environment are Fundamentally Interdisciplinary The study of energy is intrinsically interdisciplinary in nature – many disciplines inform our understanding of energy. The theoretical and applied sciences underpin the fundamental potentialities of energy and their impacts‚ both beneficial and detrimental
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Chemistry GENERAL CHEMISTRY: Atomic Structure and elementary quantum mechanics: Blackbody radiation‚ Planck’s radiation law‚ photoelectric effect‚ Compton Effect‚ de Broglie’s hypothesis‚ Heisenberg’s uncertainty principle. Postulates of quantum mechanics‚ Schrodinger wave equation and a particle in a box‚ energy levels‚ wave functions and probability densities‚ Schrodinger wave equation for H-atom‚ Separation of variables‚ Radial and angular functions‚ hydrogen like wave functions‚ quantum numbers
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ANNA UNIVERSITY‚ CHENNAI AFFILIATED INSTITUTIONS R - 2008 B.TECH. PETROLEUM ENGINEERING II - VIII SEMESTERS CURRICULA AND SYLLABI SEMESTER II (Common to all B.E. / B.Tech. Degree Programmes except B.E. – Marine Engineering) SL. No. COURSE CODE COURSE TITLE L T P C THEORY 1. HS2161 2. MA2161 3. PH2161 4. CY2161 5. a ME2151 Technical English – II* Mathematics – II* Engineering Physics – II* Engineering Chemistry – II* Engineering Mechanics (For non-circuit branches)
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Operations Management at Agrotech Pvt Limited (Edible Oil Refining) Group Number A8 I P Sudhir Kumar PGP16/002 Jayashree ML PGP16/024 Megha Jain PGP16/031 Pooja Sharma PGP16/036 Neeraj Kumar PGP16/033 Rohit Kumar PGP16/042 Boby Chaitanya V FPM Piyush Kumar FPM Acknowledgement During the term project for Operations
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with the content. For example during this lab you will be doing extraction and TECH 6 describes the theory behind it and how to handle separatory funnel. using a drying agent and in TECH 6-5 you will read about the use of drying agents doing a distillation and the procedure can be found in TECH 5-2 and the apparatus set up in TECH 5-4 carrying out gravity filtration using fluted filter paper and TECH 3-6 shows you how to flute the filter paper. using the rotary Evaporator (Rotavap) to evaporate solvent
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Water was added to the flask to yield a total volume of approximately 51.2 mL. A steam distillation was performed‚ and about 28 mL of distillate was collected in the receiving flask. The distillate was added to a separatory funnel to perform an extraction with 5 mL of ethyl acetate. The ethyl acetate extract was then dried by adding 0.6102
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Principles of Mass Transferand Separation Processes Binay K. Dutta Universiti Teknologi Petronas Malaysia New Delhi-110001 2009 PRINCIPLES OF MASS TRANSFER AND SEPARATION PROCESSES Binay K. Dutta © 2007 by PHI Learning Private Limited‚ New Delhi. All rights reserved. No part of this book may be reproduced in any form‚ by mimeograph or any other means‚ without permission in writing from the publisher. Cover photo — Courtesy: Haldia Petrochemicals Limited ISBN-978-81-203-2990-4
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Special Report Methyl ethyl ketone – A techno-commercial profile M ethyl ethyl ketone (MEK or 2-butanone) is an organic compound with the formula CH3C(O)CH2CH3. Its CAS number is 78-93-3. The colorless liquid ketone has a sharp‚ sweet odour of butterscotch and acetone. It is produced industrially on a large scale‚ and also occurs in trace amounts in nature. It is soluble in water and is commonly used as an industrial solvent. With natural and synthetic resins‚ MEK produces solutions with low viscosity
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