Tutorial 3 : Process Variables 1. The specific gravity of gasoline is approximately 0.70. a) Determine the mass (kg) of 50.0 liters of gasoline. b) The mass flowrate of gasoline exiting a refinery tank is 1150kg/min. Estimate the volumetric flow rate in litres/s. 3. How many of the following are found in 15.0kmol of benzene(C6H6)? a) kg C6H6 b) mol C6H6 c) Ib-mol C6H6 d) mol (g-atom) C e) mol H f) g C g) g H h) molecules of C6H6.
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OBJECTIVES The objectives of the experiment are: 1. To demonstrate pump performance when connected in series and parallel 2. To show shut off point of pump in series and parallel ABSTRACT / INTRODUCTION Pump is a general term for any fluid machine; used to transfer and add energy to fluid in a system‚ either at the same level or to a new height. There are some fundamental parameters used to determine the performance of a pump. The mass flow rate of fluid is the obvious primary pump performance
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Design of a Polystyrene Plant for Differing Single-Pass Conversions November 25‚ 2013 Introduction Polystyrene is one of the most widely used plastics‚ with applications ranging from food packaging to appliances to manufacturing (Maier). On an industrial scale‚ polystyrene is derived from its monomer‚ styrene. This is achieved by free-radical polymerization of a solution of monomer‚ polymer‚ and initiator. This reaction is a multistep radical reaction that
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H_2 The purpose of this experiment is to determine the mass % of through the Volumetric Analysis method. To attain this purpose‚ a decomposition reaction was performed‚ which can be separated into two steps. First‚ 2 mL of was reacted with approximately .5 g of KI in an Erlenmeyer flask to form and a hypoiodite species. The second step is the reaction between another molecule of and hypoiodite‚ which results in reformation of the catalyst‚ potassium iodide. The catalyst is used to speed up
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Introduction: The purpose behind (the first step in) this experiment is to show that similarly to week 1‚ the molarity of an acid or base in solution can be determined (so long as one value’s is known) using titration. In this case though‚ finding the molarity of the acid used in the reaction is then used to determine the percent of that acid in a vinegar solution and compared to the standard value for % acid present in vinegar. The second part of the experiment was to see if by titrating a solution
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relation between the gas velocity and pressure drop is Where‚ is the differential pressure as expressed in the head of the fluid flowing. Where‚ ’=level difference = density of air= 1.21 kg/m3 ’=density of liquid (water) =1000 kg/m3 . Volumetric gas flow rate V (m3/s) is calculated by assuming a flat velocity profile inside the tube. This is justifiable as the flow is turbulent V= v * s’ Where s’= pipe cross sectional area Vapor velocity inside the distillation column (v) = PROCEDURE:
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kkkkkkkkk CVEN-3313 Theoretical Fluid Mechanics MODULE#4 : Application of Impact on a Jet 1. OBJECTIVE To use the momentum equation to estimate the force exerted by a jet on a stationary target. 2. THEORY The momentum equation in the vertical (z) direction can be written as: Applying the momentum equation for a control volume including the forces acting on a flat target or hemispherical target gives: (1a : flat) (1b : hemi) It is assumed that the velocity
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Table of Contents A. Objective 2 B. Theory and Analysis 2 C. List of Apparatus 3 D. Procedure 4 E. Set-up of Apparatus 4 F. Final Data Sheet 6 G. Sample Computation 6 H. Test Data Analysis 7 I. Related Studies 8 J. Conclusion 18 K. Recommendation 19 L. References 19 A. Objective 1. To be familiar with the operating procedure and principle as well as the efficiency of
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Inflatable air bag Alternate drying mechanism in automatic washing machine Product Design Lab 1 Group 5 Pre-requisites • • • • • • Easy operation Safe Greater power and water efficiency Reasonably priced Substantial drying of clothes Minimal wear of clothes Patented in 1957‚ the mechanism alongside uses a mechanical piston to squeeze water out of the clothes Brainstorming & categorization of modules Mechanical Thermal Chemical Electrical Mechanism
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PRODUCTION OF 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
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