Pipe Quenching Heat Transfer Project Aaron Rowe Kenneth Johnson.

Slides:

Advertisements

Similar presentations

Related Rates With our friend Student Tools

Advertisements

Functions S S T : S P R E A D S H E E T S SST 5 Spreadsheet 5 Function.

Line Balancing Problem A B C 4.1mins D 1.7mins E 2.7 mins F 3.3 mins G 2.6 mins 2.2 mins 3.4 mins.

Heat Treating Facilities - Quenching  The purpose of quenching is to control the normal metallurgical transformation that occurs when metal is cooled,

Fluid Mechanics.

Heat from Street Street Capturing Energy System Supervisor: Eng. Ramez Khaldi The students Abdullah Qalalwah Amjad M. Dwikat Hamza Sameer.

AN-NAJAH NATIONAL UNIVERSITY FACULTY OF ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING Prepared by: Wajdi abu-muhsen Khaled aamer Ahmad Al-Hunate Nabeel.

SOLUTION RUNNING The distance d (in miles) that a runner travels is given by the function d = 6t where t is the time (in hours) spent running. The runner.

Heating/Cooling Curve & Energy Calculations. Which of the following measures the average kinetic energy of a sample? 1.Mass 2.Volume 3.Specific heat 4.Temperature.

The Convection Workbook Simplifying Calculations Josh Bryson and Russell Aldridge.

Fins Design Project. Problem Does adding fins to the heating coil of a conventional oven significantly reduce the time required to heat the oven? Objectives.

Pump Basics. Centrifugal Pumps From the Center of a Circle RADIAL DIRECTION To the Outside of a Circle A machine for moving fluid by accelerating the.

CHE/ME 109 Heat Transfer in Electronics

Group 3: Seong Won Byun Jakob Combs Zachary Lightner Bart Sudhoff Devin Templeton.

Heating/Cooling Curve Melting (ice & water) ALL ice ALL Water Vaporizing (water & vapor) ALL Vapor.

Solutions Chapter 8.1 & 8.2. Formation Any states of matter - solid, liquid, or gas – can become part of a solution For a solution to form, one substance.

A tank holds 1000 gallons of water, which drains from the bottom of the tank in half an hour. The values in the table show the volume V of water remaining.

Module 4 Lesson 7. What values of x and y make this equation true? There are infinitely many solutions!

INTRODUCTION to the DESIGN and FABRICATION of IRON- DOMINATED ACCELERATOR MAGNETS Cherrill Spencer, Magnet Engineer HOMEWORK PROBLEM for Lecture # 2 of.

Solar Energy Systems in the Eco-Village at the University of Manitoba

SOLUTION RUNNING The distance d (in miles) that a runner travels is given by the function d = 6t where t is the time (in hours) spent running. The runner.

CMS CO2 Test Stand Specifications and Installation Status Erik Voirin Fermilab PPD - Process Engineering Group CMS CO2 Cooling Test Stand1.

HVAC523 Piping and Fittings.

Introduction to Interval Notation Goals: I will be able to use inequality and interval notation to graph inequalities. I will be able to use the graphs.

Wind Why air moves Pressure Belts Moving air Wind is created by differences in air pressure  The greater the difference, the faster the wind moves  The.

Deep Ocean Circulation. Significant vertical movement ▫Accounts for the thorough mixing of deep- water masses.

Solubility Curves. A solubility curve (see Table G) shows the maximum amount of solute that will normally dissolve in a given amount of a solvent over.

Reading Materials: Chapter 9

1.3 Graphs of Functions Equations are mathematical ___________________________. ______________________ are what make the sentences true. A ________________.

WELCOME Project Electric Power Plant. Electric Power Plant Electric Power Plant.This is the age of Technology. In this age there is no place where we.

Energy Changes & Phase Changes. It takes energy to heat stuff up! For pure substance in single phase, can calculate how much using Q = mC  T For pure.

Lecture Objectives: Answer question related to Project 1 Finish with thermal storage systems Learn about plumbing systems.

Reaction Energy Specific Heat u The specific heat of any substance is the amount of heat required to raise the temperature of one gram of that substance.

Heating Curves and Energy. Which of the following measures the average kinetic energy of a sample? 1.Mass 2.Volume 3.Specific heat 4.Temperature 5.Heat.

Roberto Silva #65330 February 13,2016 Prof. Eduardo Cabrera.

1 The line from the center sweeps out a central angle  in an amount time t, then the angular velocity, (omega) Angular Speed: the amount of rotation per.

Procedure  Prior to testing:  Set up and ran the dust trak for 5 minutes to get a control. We also prepared and set up the equipment to begin waxing.

T HERMOCHEMISTRY. E NERGY OF P HASE C HANGES : H EATING C URVE DURING PHASE CHANGES TEMPERATURE IS CONSTANT!!!!! Energy Increases!

6.5 Recommended Velocity Of Flow In Pipe And Tubing.

Conclusions For copper surfaces: It was found that with a nanoﬂuids concentration of vol.%, the heat transfer coefﬁcient increased, compared with.

Slope Unit Review Hosted by Mrs. Gabel.

© 2012 Pearson Education, Inc.

E = m Lf E = m c θ E = m Lv.

Characteristics of the Transient Nucleate Boiling Process

4.1 (c) To conduct a qualitative test for reducing sugar

Model for distillation tire pyrolysis oil

Heating/Cooling Curve & Energy Calculations

Temperature and Heat Unit 6: Thermal Energy.

Johnson Water Well Screens.

Heating and cooling cure of water

Which of the following is a single phase that can occur in steels:

Temperature vs. Solubility

Phase Changes and Heat.

Ocean Currents What do we know about ocean currents?

Resistance of water through a pipe

Possible observations:

Chemistry – Oct 16, 2017 Get out the Pressure-Temp WS for HMK check

C10 – Thermal Energy C11 – Energy in Bonds General Physics

Changes of state, the cooling curve and latent heat

Review Stations and FR Kinetics February 5, 2018

Countercurrent flow mechanism

Solutions & Molarity What is a solution?

The Specific Heat Capacity

Complete chart for 18 minutes

Results and Discussion

Introduction results Forced Convection Excel Linear Regression tool

Presentation transcript:

Pipe Quenching Heat Transfer Project Aaron Rowe Kenneth Johnson

Introduction °F pipe coming out of Annealing Oven present hazard to handlers Pacific States Cast Iron Pipe Co. has challenged us to come up with a table to show how long it would take and how much water would be needed to cool the pipe to 650 °F

Boiling Curve

fluids/TT_boiling.htmhttp:// fluids/TT_boiling.htm Example of Film Boiling

Pipe Range from 6.5” to 32” O.D. This effects time and water flow needed Different Size Pipe

Largest Possible Pipe 32”

PSCIPCO will design system to expose pipe to flow for specified time Oven Exit

Equations Used Find h_bar Using… With…

Solution

Spreadsheet

The maximum amount of water needed and the time the pipe must be exposed is: 27 gallons per minute for 3 min. 20 sec. When running smaller pipe, operator may choose to speed up conveyor belt or decrease water flow Conclusion & Recommendations

THANK YOU