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==Authors==
==Authors==
Alex Hiebert ([[user:arh76/ Alex Hiebert]])
[[user:arh76|Alex Hiebert]]


Janoah Osborne ([[userjo59]])
[[user:Janoah59|Janoah Osborne]]


Grant Rico ([[user:gar25]])
[[user:gar25|Grant Rico]]


Benjamin Stern ([[user:brs34]])
[[user:brs34|Benjamin Stern]]


   
   
[[Category:ENGR 215 Introduction to Design]]
[[Category:ENGR 215 Introduction to Design]]

Revision as of 19:07, 7 May 2010

Template:TOCleft

HSUEre.jpg
Team Energy-Caters consists of Alex Hiebert (user:arh76), Janoah Osborne (userjo59), Grant Rico (user:gar25), and Benjamin Stern (user:brs34).

Abstract

Figure 1: The Final Design-Modeling Renewable Energy

During the Spring semester of 2010, a group of four students (Team Energy-Caters) were assigned a twelve week long design project in the Engineering 215 Introduction to Design course at Humboldt State University. Team Energy-Caters were sponsored by their client Redwood Coast Energy Authority of Eureka, CA., and given the task to further educate local students on renewable energy in the best-fit design they felt appropriate. The objective and criteria of the design project was developed by team Energy-Caters in order to produce a teaching aid for middle school audience on renewable energy resources. The final product, Modeling Renewable Energy, was researched, constructed, and tested with the goal of being implemented in classrooms for years to come.

Project Overview

Modeling Renewable Energy is a design consisting of a three-part lesson plan.

The first part is a written activity for the students. The activity includes informative pamphlets on five renewable energy resources: solar, wind, wave, hydroelectric, and biomass. To go along with the introductory pamphlets is a theoretical scenario describing an area in need of an energy source. The students have a worksheet they complete for this activity.

The second part is a hands-on activity for the students. One topographic model, as shown in Figure 1, is provided to the class. The students place miniature solar panels, wind mills, and water mills on the model and connect them to a voltmeter to witness them producing energy. There are various spots on the model for the renewable technologies to be placed; each spot changes the amount of energy produced. There is a worksheet involved with this activity also.

The third part is a class debate. The students are split into five groups, each assigned one of the renewable energy resources. The students use the information from the previous activities to develop arguments on why their renewable energy is best-fit for the modeled area. The class debate is structured where each group presents one at a time. Include link to document


Problem and Objective

Black Box Diagram








The Design Objective: To fill the given boxes with an effective, educational aid focused on renewable energy that is interactive and maintainable for a middle school audience.

The Black Box Diagram to the left depicts the state of the world before and after the final design is implemented.






Criteria

The criteria are based off the objective and are weighted in terms of importance relating to the final solution. Each criteria has a corresponding constraint that must be met.

Criteria Weight Constraint
Level of Educational Value 10 The project must be able to effectively communicate age-appropriate information on five renewable energy resources to the audience.
Construction Practicality 9 The entire project must be complete within the deadline
Durability 8.5 The project must last one year of weekly interaction my middle school students.
Level of Fun 8 The project must be enjoyable, engaging and encouraging to the students’ learning.
Safety 7 The project may not obtain any potentially hazardous materials or equipment.
Ease of Use 6.5 The project must be easy to implement in a classroom for both instructors and students
Cost 6 The entire project must cost less than $400
Aesthetics 6 The project must be an attractive final project
Ease of Maintenance 5 The project must be easy to maintain, store, and replenish materials for multiple uses.

Final Product

Costs

The materials involved in constructing the final project cost a total of $230.06. A detailed list of the price and quantity of each material is listed in the table below. The materials were purchased from local stores, such as Almquist Lumber, Ace Hardware, Michael's Arts and Crafts; and Eureka RC and Hobby shop, as well as online companies, such as SolarMade and KidWind.

Construction Costs
Materials Quantity Price ($) Total ($)
Turbine generators 6 3.00 18.00
Fan 1 15.99 15.99
Solar panels 4 3.50 14.00
Sheet of 1/4" plywood 1 13.99 13.99
Voltmeter 1 12.50 12.50
Lamp 1 10.79 10.79
Two part foam 2 4.99 9.98
Model grass 1 9.87 9.87
Vinyl Spackling 2 4.89 9.78
Paint 7 0.99 6.93
Plaster of Paris 1 6.89 6.89
Fiberglass resin 2 11.45 22.90
Mini bird house windmills 6 0.99 5.94
Drain plug 1 5.84 5.84
Gorilla glue 1 4.49 4.49
Plastic tub 2 2.24 4.48
Tube valve 1 4.31 4.31
Wood glue 1 4.25 4.25
Velcro squares 1 3.59 3.59
Wire endings 2 1.79 3.58
Silicon caulking 1 3.49 3.49
PVC T joints 3 1.16 3.48
Spray paint 1 2.89 2.89
Sand paper 6 0.45 2.70
Paint brush 3 0.90 2.70
Vinyl tubing 3 0.69 2.07
1/4" wooden dowel 2 0.64 1.28
Electrical tape 1 0.71 0.71
Wiring 2 0.35 0.70
Total ($) 230.06
Estimated Annual Maintenance Cost
Material Price ($) Quantity Approx. Time of Use (yrs) Annual Cost ($)
Turbine generator 3.00 6 4 4.50
Solar panel 3.50 4 2 7.00
Voltmeter 12.50 1 5 2.50
Fan 15.99 1 3 5.33
Lamp 10.79 1 3 3.60
Paint 0.99 5 1 4.95
Fiberglass resin 10.89 1 1/2 5.45
Gorilla glue 4.49 1 1 4.49
Photo copies 0.05 30 1/50 (week) 75.00
Total ($) 112.80
Slide27.jpg

Project Hours

The total number of combined hours that Energy-Caters contributed to completing Modeling Renewable Energy is 512 hours. The design process was divided into five phases: Problem Formulation, Problem Analysis/Literature Review, Alternative Solutions, Decision Process, and Construction and Testing of the final solution.


hours and money/materials

Testing Results

photos, how it met criteria

Next Steps

annual costs, productivity

Authors

Alex Hiebert

Janoah Osborne

Grant Rico

Benjamin Stern

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