Presentation is loading. Please wait.

Presentation is loading. Please wait.

Optimizing heater power in a thermal process. Problem Statement Laminar Inflow at 20°C Outlet Heater 1 Heater 2 Maximize the temperature at the outlet.

Published byRussell Williamson Modified over 9 years ago

Similar presentations

Presentation on theme: "Optimizing heater power in a thermal process. Problem Statement Laminar Inflow at 20°C Outlet Heater 1 Heater 2 Maximize the temperature at the outlet."— Presentation transcript:

1 Optimizing heater power in a thermal process

2 Problem Statement Laminar Inflow at 20°C Outlet Heater 1 Heater 2 Maximize the temperature at the outlet By changing the power at the two heaters Constrain the peak temperature at the heaters Gravity Air flow through a channel Two heaters raise the air temperature The buoyancy force accelerates the flow Optimization Problem: Air

3 Step 1: Set up a Non-Isothermal Flow model Define the flow conditions at the inlet Fix the inlet temperature Open boundary at the outlet Two different heater flux conditions for the two heaters Buoyancy force

4 Step 2: Solve the problem and examine results Since we use the Open Boundary, the Non- Isothermal Flow interface automatically sets up a post-processing variable for us: comp1.nitf.open1.Tave This variable takes the mass-flow-weighted temperature average at the open boundary and accounts for the non-uniform velocity and any change in density over the outlet. This weighted outlet temperature is ~61°C and is what we want to improve

5 Step 3: Add Optimization to the Study Default Optimization Solver Settings

6 Step 4: Define the Objective Maximize the mass-flow-weighted average temperature at the outlet

7 Step 5: Define the Control Variables Choose reasonable initial values, and apply boundary to the variables. A lower bound of 0 is physically reasonable. An upper bound is not necessary for this case.

8 Step 6: Define the Constraints Keep the maximum temperature at the heaters below 95°C

9 Solve & Evaluate Results Peak temperature at heaters in 95°C Temperature at outlet is 70°C Heater 1: 7.9 W Heater 2: 4.0 W

Download ppt "Optimizing heater power in a thermal process. Problem Statement Laminar Inflow at 20°C Outlet Heater 1 Heater 2 Maximize the temperature at the outlet."

Similar presentations

Open Source Field Operation and Manipulation

Open Source Field Operation and Manipulation
Optimization problems using excel solver

Optimization problems using excel solver
Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.

Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.
Chapter 2 Introduction to Heat Transfer

Chapter 2 Introduction to Heat Transfer
EE 553 Integer Programming

EE 553 Integer Programming
Free Convection: General Considerations and Results for Vertical and Horizontal Plates Chapter 9 Sections 9.1 through 9.6.2, 9.9.

Free Convection: General Considerations and Results for Vertical and Horizontal Plates Chapter 9 Sections 9.1 through 9.6.2, 9.9.
Flow Over Notches and Weirs

Flow Over Notches and Weirs
Optimization of thermal processes2007/2008 Optimization of thermal processes Maciej Marek Czestochowa University of Technology Institute of Thermal Machinery.

Optimization of thermal processes2007/2008 Optimization of thermal processes Maciej Marek Czestochowa University of Technology Institute of Thermal Machinery.
Computer Aided Thermal Fluid Analysis Lecture 10

Computer Aided Thermal Fluid Analysis Lecture 10
Optimization of thermal processes2007/2008 Optimization of thermal processes Maciej Marek Czestochowa University of Technology Institute of Thermal Machinery.

Optimization of thermal processes2007/2008 Optimization of thermal processes Maciej Marek Czestochowa University of Technology Institute of Thermal Machinery.
1 Lec 24: Rankine cycle reheat, deviations, efficiency increases, viscosity, introduction to fluid flow.

1 Lec 24: Rankine cycle reheat, deviations, efficiency increases, viscosity, introduction to fluid flow.
Copyright © 2005 Advantica Inc. (USA Only) and Advantica Ltd. (Outside USA). All rights reserved by the respective owner. Own Use Gas Review of Pre-heater.

Copyright © 2005 Advantica Inc. (USA Only) and Advantica Ltd. (Outside USA). All rights reserved by the respective owner. Own Use Gas Review of Pre-heater.
Pitot Stagnation Tubes Under Laminar Conditions *P7.24 Jace Benoit February 15, 2007.

Pitot Stagnation Tubes Under Laminar Conditions *P7.24 Jace Benoit February 15, 2007.
Internal Flow: Heat Transfer Correlations

Internal Flow: Heat Transfer Correlations
Flow over an Obstruction MECH 523 Applied Computational Fluid Dynamics Presented by Srinivasan C Rasipuram.

Flow over an Obstruction MECH 523 Applied Computational Fluid Dynamics Presented by Srinivasan C Rasipuram.
Jennifer Tansey 12/15/11. Introduction / Background A common type of condenser used in steam plants is a horizontal, two- pass condenser Steam enters.

Jennifer Tansey 12/15/11. Introduction / Background A common type of condenser used in steam plants is a horizontal, two- pass condenser Steam enters.
Jennifer Tansey 11/11/11. Introduction / Background A common type of condenser used in steam plants is a horizontal, two- pass condenser Steam enters.

Jennifer Tansey 11/11/11. Introduction / Background A common type of condenser used in steam plants is a horizontal, two- pass condenser Steam enters.
Basic Governing Differential Equations

Basic Governing Differential Equations
Economics 214 Lecture 37 Constrained Optimization.

Economics 214 Lecture 37 Constrained Optimization.
Preliminary Assessment of Porous Gas-Cooled and Thin- Liquid-Protected Divertors S. I. Abdel-Khalik, S. Shin, and M. Yoda ARIES Meeting, UCSD (March 2004)

Preliminary Assessment of Porous Gas-Cooled and Thin- Liquid-Protected Divertors S. I. Abdel-Khalik, S. Shin, and M. Yoda ARIES Meeting, UCSD (March 2004)

Similar presentations

Ads by Google