University of Arizona Tucson, AZ, 85716
S.A.C.R.A.W Solar Oven Prepared for: Dr. Stanley Pau
Jack Speelman Rebecca Nelson Paola “Andy” Lopez Lorin Greenwood Stephanie Gilboy October 21st 2012
Figure 1: Shows the team members of Team S.A.C.R.A.W standing alongside the final solar oven on Solar Oven Testing Day.
Team S.A.C.R.A.W Solar Oven 2
Table of Contents
Cover 1 Table of Contents 2 Executive Summary 3 Introduction - Motivation/Background/Key Terms 4-5 - Criteria and Constraints 5-6 Main Body - Functional and Design Requirements 6-7 - Design Theory and System Model 7-10 - Design Description – Conceptual Design 11-13 - Design Description – Final Design 14-17 - Design Justification 17-18 - Evaluation of Results 18-19 - Test Procedure 19-20 Design Critique and Summary 20-22 Appendix - First Oven Spreadsheet Data and Design/Drawing 22-24 - Final Oven Spreadsheet Data and Design/Drawing 25-27 - References 28
Team S.A.C.R.A.W Solar Oven 3
Executive Summary
The objective of the solar oven project was to design, build, and test a productive solar oven that
could reach an interior temperature of 100˚C. This was obtained through converting solar energy,
also known as electromagnetic energy, into thermal energy. The first law of thermodynamics
was utilized by understanding that energy cannot be created or destroyed but could be
transformed and used to heat the interior of the oven.
Two solar ovens were constructed in order to fully maximize the temperature inside the oven
chamber. The first oven was used as a prototype and research tool in order to build an oven that
could reach the optimum temperature calculated. The initial oven was predicted at 170.26˚C but
only reached an interior temperature of 85.6˚C. This produced a preforming index number of
1.02 and a cost index of 6.05˚C/dollar. The improved oven had a predicted temperature of
176.58˚C using the ambient air temperature and solar density provided. The oven reached an
interior temperature of 99.6˚C. The performing index for the second oven was calculated to be
1.28 and a cost index of 4.34˚C/dollar.
Team S.A.C.R.A.W Solar Oven 4
Introduction
Motivation:
• Learn the concept of team work and how to work together with other people to
achieve a common goal
• Gain proficiency in Excel, Solid Works, and basic solar oven knowledge.
• Acquire knowledge of the transformation of solar energy to heat.
• Learn the basics of the design and construction process
Background:
The main goal of the solar oven project was to find out the best way to change solar
energy into thermal energy. To do this, teams needed to know the first law of thermodynamics.
The first law states that energy cannot be created or destroyed, but c