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[[Image:Creative_Innovations.jpg|thumb|left|Fig 1: Creative Innovations]]The Full Belly Project is a non-profit organization which aims to provide simple ways to make lives better for rural populations in developing countries. FBP is known for its Universal Nut Sheller which was introduced by Jock Brandis. Jock Brandis went to a village in Mali, Africa and saw how the women there spent hours shelling peanuts with their hands. He created the universal peanut sheller that can shell one hundred and twenty five pounds of peanuts per hour compared to the three pounds per hour by hand (The Full Belly Project 2006). Since then the universal nut sheller has been used in many other developing countries like Haiti, Philippines, Uganda, and Zambia (Full Belly Project 2006).
[[Image:Creative_Innovations.jpg|thumb|left|Fig 1: Creative Innovations]]The Full Belly Project is a non-profit organization which aims to provide simple ways to make lives better for rural populations in developing countries. FBP is known for its Universal Nut Sheller which was introduced by Jock Brandis. Jock Brandis went to a village in Mali, Africa and saw how the women there spent hours shelling peanuts with their hands. He created the universal peanut sheller that can shell one hundred and twenty five pounds of peanuts per hour compared to the three pounds per hour by hand (The Full Belly Project 2006). Since then the universal nut sheller has been used in many other developing countries like Haiti, Philippines, Uganda, and Zambia (Full Belly Project 2006).
The group Creative Innovations was formed as a part of an assignment in Humboldt State University's engineering class Introduction to Design.  The group was assigned the task of improving the Universal Nut Sheller for the West African market. Team members are Andrew Johns, Brenda Johnson-Howell, Diana Magus and Parsa Motavalli.
The group Creative Innovations was formed as a part of an assignment in Humboldt State University's engineering class Introduction to Design.  The group was assigned the task of improving the Universal Nut Sheller for the West African market. Team members are Andrew Johns, Brenda Johnson-Howell, Diana Magus and Parsa Motavalli.
== Abstract ==
something
== Objective ==
The objective of this project is to reduce the cost of the current Universal Peanut Sheller. The new peanut sheller will be used in West Africa where there is a limited access to materials.


== Criteria ==
== Criteria ==
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The top three inches of the original UNS functioned primarily as a hopper.  Ideally this can be replaced with any low cost material or container available at construction time.  An inexpensive basket, Figure 2, was purchased from a thrift store for our prototype.  The basket was then cut to fit over the top of the sheller as shown in Figure 3.
The top three inches of the original UNS functioned primarily as a hopper.  Ideally this can be replaced with any low cost material or container available at construction time.  An inexpensive basket, Figure 2, was purchased from a thrift store for our prototype.  The basket was then cut to fit over the top of the sheller as shown in Figure 3.
== Abstract ==
The objective of this project is to reduce the cost of the current Universal Peanut Sheller. The new peanut sheller will be used in West Africa where there is a limited access to materials.


== Costs ==
== Costs ==

Revision as of 17:38, 11 December 2008

Background

Fig 1: Creative Innovations

The Full Belly Project is a non-profit organization which aims to provide simple ways to make lives better for rural populations in developing countries. FBP is known for its Universal Nut Sheller which was introduced by Jock Brandis. Jock Brandis went to a village in Mali, Africa and saw how the women there spent hours shelling peanuts with their hands. He created the universal peanut sheller that can shell one hundred and twenty five pounds of peanuts per hour compared to the three pounds per hour by hand (The Full Belly Project 2006). Since then the universal nut sheller has been used in many other developing countries like Haiti, Philippines, Uganda, and Zambia (Full Belly Project 2006).

The group Creative Innovations was formed as a part of an assignment in Humboldt State University's engineering class Introduction to Design. The group was assigned the task of improving the Universal Nut Sheller for the West African market. Team members are Andrew Johns, Brenda Johnson-Howell, Diana Magus and Parsa Motavalli.

Criteria

Cost- The universal peanut sheller should not cost more than the current design. Lower cost is preferable.

• Durability- The Universal Nut Sheller should be able to sustain many hours of daily usage for several years.

• Effectiveness- The Universal Nut Sheller should effectively shell a variety of ground nuts.

• Aesthetics- The Universal Nut Sheller should be aesthetically similar to that of the existing design and not overtly unappealing.

• Safety- The Universal Nut Sheller should be safe to use by an average man, woman or child above the age of 12 years old.

• Ease of Construction- The Universal Nut Sheller should be easy to assemble on site.

• Transportability- The design of the Universal Nut Sheller should be transportable. Ideally, the greater degree of transport is better without compromising other criteria.

Description of The Full Bell

Figure 1: Picture of The Full Bell stator next to original UNS Stator.
Figure 2:Unaltered basket used as hopper

The final solution chosen incorporates two of our alternative solutions. We have chosen the name of The Full Bell for our final solution. The Full Bell involves two changes to the original Universal Nut Sheller. The mix of concrete was changed to one-sixth cement, one-third sand, and one-half gravel, and five inches were removed from the stator.

Figure 3:The Full Bell complete with basket hopper.

In testing, the gravel mix used was stronger than the original concrete mix. We tested small bricks of the gravel mix, the original concrete mix, a mixture of cement with Styrofoam, as well as several different mixtures of adobe. Three separate tests were performed. Each brick was scored with a stiff wire brush for one minute. A twelve ounce weight was dropped from an eighteen inch height onto the bricks. Finally, the bricks were weighted on one side and twisted downward until breaking. In each test the gravel mix used in The Full Bell was more resilient.

Three inches were removed from the top of the sheller and two inches from the bottom. Figure 1 shows the Full Belly Project’s Universal Nut Sheller (left) compared to the Creative Innovation’s “Full Bell” (right).

The top three inches of the original UNS functioned primarily as a hopper. Ideally this can be replaced with any low cost material or container available at construction time. An inexpensive basket, Figure 2, was purchased from a thrift store for our prototype. The basket was then cut to fit over the top of the sheller as shown in Figure 3.

Abstract

The objective of this project is to reduce the cost of the current Universal Peanut Sheller. The new peanut sheller will be used in West Africa where there is a limited access to materials.

Costs

Materials

Materials Quantity Cost Per Quantity $ Our Cost $ Poterntial Cost $
sand 3 50 Lb Bags 17.00 17.00 17.00
cement 1 94 Lb Bag 17.00 17.00 17.00
Gravel 2 50 Lb Bags 3.60 Free 7.20
Clay 3 Lb 6.00 Free 7.20
36 Inch All Thread 1 14.90 14.90 14.90
Nuts 15 .12 1.80 1.80
Shovel 1 16.00 10.00 10.00
Washers 15 .12 1.80 1.80
Basket 1 6.00 6.00 6.00
Peanuts 2 4.75 9.50 9.50
Bolts 4 1.50 6.00 6.00
Baking Molds 3 Packages 1.99 6.39 6.39
Crisco 1 Lb Container 4.13 4.13 4.13
Bearing Grease 1 Lb Container 8.13 8.13 8.13
Total Costs 114.9

See this example of a cost table for more on tables.

Possible alternative materials

Tools

Skills needed

Estimated time of construction

Discussion and Next Steps

The Full Bell sheller has successfully met its criteria of cutting the costs and keeping its effectiveness. The mold for the Full Bell can be used to make shellers of other materials as well. By experimenting with different kinds of aggregates and cement formulas, a sheller can be produced that can be lighter, stronger and more cost effective. Just by simply changing the ratio of gravel, sand and cement in the Full Bell, or by adding fly ash or fibers, the durability will remain the same or even better. The Full Bell has opened up endless possibilities of using materials such as adobe, papercrete, styrofoam and plastics.

References

See Help:Footnotes for more.

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