CHAPTER 1: FLUID PROPERTIES LEARNING OUTCOMES At the end of this topic‚ you should be able to: Define Fluid State differences between solid and fluid Calculate common fluid properties: i. Mass density ii. Specific weight iii. Relative density iv. Dynamic viscosity v. Kinematic viscosity INTRODUCTION Fluid Mechanics Gas Liquids Statics i F 0 F 0 i Laminar/ Turbulent Dynamics ‚ Flows Compressible/ Incompressible Air‚ He‚ Ar‚ N2‚ etc. Water‚ Oils‚ Alcohols‚
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vane six is multiplied by two since it is easier to rotate the vanes. From Table 1.0‚ the values for the undrained shear strength of the soil for the first trial using the medium vane‚ larger vane‚ and smaller vane are as follows: 18kN/m3‚ 17 kN/m3‚ and 19 kN/m3‚ respectively. It can be observed that the values are relatively large‚ this is because the soil sample is fully saturated. However‚ the results of each test using different vane sizes yielded different values. The differences in the values
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pages. The BMW M3 has been the subject of many articles and consumer report studies recently. Rating cars is not only just an annual task for automotive journalists but it is also a subject which auto enthusiasts look forward to eagerly each season. Did their favorite car make it to the top? What did the critics have to say about it? And do these opinions agree with those who actually own these cars? This paper focuses on the BMW M3 in the sports car class. For those who own the BMW M3 it is likely
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FLÄKT WOODS LIMITED FANS IN FIRE SAFETY SMOKE CONTROL BY PRESSURISATION By: J.A. WILD‚ C.ENG; F.I.MECH.E. November 1998 (Third Edition) © Copyright 2000 Fläkt Woods Limted England. 2 CONTENTS PAGE NO: Summary 4 Chapter One Smoke Control By Pressurisation - Basics 5-6 Chapter Two Why Pressurisation? 7-8 Chapter Three The Pressurisation System 9 - 16 Chapter Four Air Requirements of a Pressurisation System 17- 20 Chapter Five Fan
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room air at 23 °C d.b.‚ 50% saturation and a flow rate of 2 m3/s‚ and fresh air at -5 °C d.b.‚ 100% saturation with a flow rate of 0.5 m3/s. The mixed air is heated to 35 °C d.b. Identify each condition point and calculate the rate at which energy has to be supplied in kW. 5. Calculate the rate at which energy has to be supplied in kW when air is heated from 10 °C d.b.‚ 8 °C w.b. to 40 °C d.b. when the inlet air volume flow rate is 3 m3/s. Use the inlet specific volume to calculate the air mass
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TABLE OF CONTENT Abstract…………………………………………………………………………2 Introduction…………………………………………………………………….3 Objectives……………………………………………………………………....4 Theory…………………………………………………………………………..4 Apparatus and materials…………………………………………………………5 Technique/method……………………………………………………………….5 Procedures……………………………………………………………………….6 Results…………………………………………………………………………...7 Calculations……………………………………………………………………...9 Discussions………………………………………………………………………10 Conclusions……………………………………………………………………...11 Recommendations………………………………………………………………
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School of Petroleum Engineering Design Project for Petroleum Engineers PTRL 3022 Group Report Mass & Energy Balances Group 3 Done by; Student No; Khalid Al-Abadi 3392461 Ahmed Al-Suleimani 3389102 Munther Al-Kalbani 3389087 Due date: 29/ 8/ 2012 Contents 1. Executive summary 2 2. Introduction 3 3. GOSP diagram 4 4. Gas Fractionation diagram 5 5. Three phase separation
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Infrastructure‚ Examples‚ Gateways‚ more Database 11g Enterprise/Standard Editions Database 11g Express Edition Audit Vault and Database Firewall Berkeley DB Big Data Connectors Cluster Verification Utility Database Mobile Server Grid Infrastructure ILM Assistant Instant Client MySQL NoSQL Database Rdb Products R Distribution Secure Backup Secure Backup Cloud Module for Amazon S3 TimesTen In-Memory Database Open Source software for a (Linux Enterprise) web server Apache HTTP Server Initially
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Private Sector Participation in Solid Waste Management in Kathmandu Section Chief‚ Solid Waste Management Section Kathmandu Metropolitan City September 19‚ 2002 1.1 Overview of Kathmandu Kathmandu Valley‚ which provides the physical setting for Kathamndu Metropolitan City (KMC)‚ is situated between the latitudes 270 32’ 13” and 270 49’ 10” north and latitudes 850 11’ 31” and 850 31’ 38” east. It covers an area of about 667 sq. km and its mean elevation is about 1350m. above sea level
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tank is filled with water. The weight of the combined system is to be determined. Assumptions The density of water is constant throughout. Properties The density of water is given to be = 1000 kg/m3. Analysis The mass of the water in the tank and the total mass are mw =V =(1000 kg/m3)(0.2 m3) = 200 kg mtotal = mw + mtank = 200 + 3 = 203 kg Thus‚ 1-14 The variation of gravitational acceleration above the sea level is given as a function of altitude. The height at which the weight
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