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[[Image:ImprovedCompost.jpg|thumb|upright=2|right|Fig 1: Three System Compost]]
 
[[Image:ImprovedCompost.jpg|thumb|upright=2|right|Fig 1: Three Stage Rotating Composter]]
==Update December 2017==
After a few months of use this design ended up failing in three critical areas. Please consider the following if you are thinking about building your own:
* The welds holding the rotating barrel aloft were not strong enough on their own to withstand the considerable weight they should hold. Additional frame pieces or reinforced welding needed at top of main support frame.
* Barrel used for rotating storage chamber ended up deforming under weight. Recommend harder material like stainless steel or hard plastic (food grade).
* Size of system too small for client's needs. This type of system would be more suited to a home compost situation.


==Abstract==
==Abstract==
The "Three Stage Rotating System" is the design that was chosen for the improved compost system at the sanctuary. Members of the Sanctuary want an improved compost system that will be more aesthetically pleasing, desirable, and easy to use. The project should also include improvements in rat-proofing and weather resistance. Additional requirements include low embedded energy of materials, preferably reused and re purposed materials.
In today's world of American waste, it is more important than ever to re-use and re-purpose food scraps in a way that is environmentally conscientious and of use for enriching local soils. The Sanctuary, a community arts and learning non-profit in Arcata California, lives by the tenets of sustainability and ethical stewardship. Team Compost worked with members of the Sanctuary in the fall of 2016 to re-vitalize their composting facilities.


== Background ==
== Background ==
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== Description of final project ==
== Description of final project ==
The final design met the criteria in a lasting, and effective way. Because the Sanctuary's old compost system was prone to rats, succumbing to the weather, and difficult to use, the new system had to be made of more durable materials while existing in a configuration that would repel invasion by pests. In response to these problems, the team formulated the "Three Stage Rotating System" design. The final configuration was comprised of a 55 gallon drum resting on rollers above a metal frame housing a secondary composting bin. A larger storage bin, made of wood palates, was located adjacent to the second stage. The rotating bin design solved two problems at once by elevating the freshest food-waste materials away from access by rats, and by allowing for easy turning and aeration of the compost. The rotating element was extremely important to the team and the client because stirring compost materials frequently can greatly aid in the efficiency of their break-down. Once material in the first stage was broken down enough it could easily be dumped directly into the second stage below, where it would finish decomposition before being transferred to the third stage storage bin.
[[Image:FinalCompostDesign.png|thumb|upright=2|right|Fig 2: Final Design for the Three Stage Composter]]


The final design met the criteria in a lasting, and effective way. Because the Sanctuary's old compost system was prone to rats, succumbing to the weather, and difficult to use, the new system had to be made of more durable materials while existing in a configuration that would repel pests. In response to these problems, the team formulated the, "Three Stage Rotating System." The rotator design solved two problems at once by elevating the freshest food-waste materials away from access by rats, and by allowing for easy turning and aeration of the compost. The rotating element was extremely important to the team and the client because stirring compost materials frequently can greatly aid in the efficiency of their break-down. Once material in the first stage was broken down enough it would finish in a secondary container, and be stored in a tertiary chamber.


[[Image:FinalCompostDesign.png|thumb|upright=2|center|Fig 2: Final Design for the Three Stage Composter]]
The final configuration was comprised of a 55 gallon drum resting on rollers supported by bicycle forks inserted into a welded frame made of a galvanized steel street sign pole (see fig. 5 & 6). The frame served a dual function by supporting the street signs which made up the walls of the second stage bin. Additional signs were used for a sliding lid and a hinged front door secured with a wood latch (see fig. 7 & 8). Special care was taken in positioning stage two over a heavy wire mesh to prevent tunneling by rats. The final stage was constructed using old shipping palates which were scavenged from the backs of local grocery stores (see fig. 9). Pests were not expected to be an issue in stage three due to the fact that any material added from stage two was expected to be mostly broken down.   


<gallery>
<gallery>
Image:Wattle2.jpg|Fig 2: This photo shows the weaving of the wattle panels. The maleable twigs/branches shown on the floor are used weaving. These twigs/branches are often called withies.
Image:Zoom Door Barrel.jpg|Fig 3: A common 55-gallon drum used by many in the restaurant industry was used for the first stage rotator.
Image:Wattle1.jpg|Fig 2a: Wattle and daub photo that shows the wattle panel underneath the daub layer.
Image:HaspsDoor.jpg|Fig 4: A door can be made using a cut out section of the barrel. In this case we attached it using weather-resistant hinges and hasps found at the local hardware store.  
Image:Wattle1.jpg|Fig 2a: Wattle and daub photo that shows the wattle panel underneath the daub layer.
Image:Hubs.jpg|Fig 5: The rotator barrel sits on bicycle wheel hubs, which act as efficient rolling mechanisms with small contact area.
Image:Wattle1.jpg|Fig 2a: Wattle and daub photo that shows the wattle panel underneath the daub layer.
Image:Hubs.jpg|Fig 6: The bicycle hubs are supported by bicycle forks, which are welded to the frame structure below.
Image:Wattle1.jpg|Fig 2a: Wattle and daub photo that shows the wattle panel underneath the daub layer.
Image:Signs_and_hinges.jpg|Fig 7: A second stage, made out of street signs attached to the main structure, sits directly below the 55 gallon barrel.
Image:Wattle1.jpg|Fig 2a: Wattle and daub photo that shows the wattle panel underneath the daub layer.
Image:Door Latch.jpg|Fig 8: The front door of the second stage box is attached to the frame with hinges, and secured on its free end with a simple wooden latch that slides into the adjacent side piece.
Image:3rd stage crate.jpg|Fig 9: The third stage of the system was constructed from shipping palates.
</gallery>
</gallery>


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==How to build==
==How to build==
In order to build the compost system that was built for the Sanctuary, the steps are as follows.
In order to replicate the compost system that was built for the Sanctuary, follow the steps below. All steps have room for variation as scavenged materials may warrant different measurements than the ones used by Team Compost.
{{How to
{{How to
  |title= How to build an improved compost system.
  |title= How to build an improved compost system.
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  |File:Cutting_Metal_Framing.JPG |Caption |1 |Cut pieces of a recycled telespar street post into four equal pieces.
  |File:Cutting_Metal_Framing.JPG |Caption |1 |Cut pieces of a recycled telespar street post into four equal pieces.
  |File:Cutting_Metal_Framing.JPG |Caption |2 |Cut additional steel pipe or scrap into four pieces, two at 30 inches and two more at 19 inches.  
  |File:Cutting_Metal_Framing.JPG |Caption |2 |Cut additional steel pipe or scrap into four pieces, two at 30 inches and two more at 19 inches.  
  |File:CompostSystemFrame.jpg |Caption |3 |Use a grinder to grind the points that will be welded together. Weld into the shape of a table as a support for the rotating barrel. Weld two three foot, long, flat strips of metal on the bottom as support for the rotating barrel
  |File:CompostSystemFrame.jpg |Caption |3 |Use a grinder to grind the points that will be welded together. Weld into the shape of a table as a support for the rotating barrel. Weld two, three foot long, flat strips of metal on the bottom as support for the rotating barrel
  |File:Signs_and_hinges.jpg |Caption |4 | Weld the bicycle forks into the metal telespar posts. Place bicycle wheel hubs(rollers) on forks.
  |File:Signs_and_hinges.jpg |Caption |4 | Weld the bicycle forks into the metal telespar posts. Place bicycle wheel hubs(rollers) on forks.
  |File:Zoom Door Barrel.jpg |Caption |5 |Drill small holes in 55 Gallon barrel for aeration.
  |File:Zoom Door Barrel.jpg |Caption |5 |Drill small holes in 55 Gallon barrel for aeration.
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  |File:Zoom_Door_Barrel.jpg |Caption |7 |Cut out door of desired dimensions in center of compost barrel, and re-attach in place using hinges.  
  |File:Zoom_Door_Barrel.jpg |Caption |7 |Cut out door of desired dimensions in center of compost barrel, and re-attach in place using hinges.  
  |File:HaspsDoor.jpg |Caption |8 |Attach two hasps to the front of the door and barrel to lock door shut when rotating.
  |File:HaspsDoor.jpg |Caption |8 |Attach two hasps to the front of the door and barrel to lock door shut when rotating.
  |File:Signs_and_hinges.jpg |Caption |9 |Drill holes through road signs and add three to the telespar support legs.
|File:HaspsDoor.jpg |Caption |9|Attach pin through hasps to ensure the security of the door
  |File:Signs_and_hinges.jpg |Caption |10|Add machine screws, nuts and washers to secure signs in place.
  |File:Signs_and_hinges.jpg |Caption |10 |Drill holes through road signs and add three to the telespar support legs.
  |File:Signs_and_hinges.jpg |Caption |11|Weld metal hinges to the front of the two stage compost system on the left telespar post support leg. Drill holes and attach street sign to hinges.
  |File:Signs_and_hinges.jpg |Caption |11|Add machine screws, nuts and washers to secure signs in place.
  |File:Signs_and_hinges.jpg |Caption |12|Add handle and close door
  |File:Signs_and_hinges.jpg |Caption |12|Weld metal hinges to the front of the two stage compost system on the left telespar post support leg. Drill holes and attach street sign to hinges.
|File:HaspsDoor.jpg |Caption |13|Attach pin through hasps to ensure the security of the door
  |File:Door Latch.jpg |Caption |13|Add handle and close door
  |File:Bricksonwiremesh.JPG |Caption |14|Lift system and place wire mesh beneath compost system. Place bricks and rocks on holes to secure mesh and keep rats out.
  |File:Bricksonwiremesh.JPG |Caption |14|Lift system and place wire mesh beneath compost system. Place bricks and rocks on holes to secure mesh and keep rats out.
  |footer= Footer
  |footer= Footer
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== Troubleshooting ==
== Troubleshooting ==
This is only how to troubleshoot the compost system. For complex issues, the solution might just be fixing the tumbler.
Consult the following table if issues arise with the system. While non-comprehensive, these steps may help improve functionality.
{| class="wikitable"
{| class="wikitable"
|-
|-
| Hinges or hasps are making it difficult to open
| Hinges or hasps are making it difficult to open.
| Add grease to loosen hasps or hinges
| Add grease to loosen hinges or hasps.
|-
| Contents of Stage 1 not emptying properly.
| Rotate barrel several times with the door closed, and try emptying again. If it is still binding consider excavating by hand.
|-
| Rollers binding/ barrel difficult to turn.
| Remove wheel hubs and re-grease bearings.
|-
|-
| Remove contents from Stage 1.
| Stage 1 or Stage 2 becoming watery and smelly.
| Rotate door from Stage 1 face down, and remove lid from Stage 2. Open door and empty contents below.
| Mix contents daily, or as often as possible.
|}
|}


==Testing Results==
==Testing Results==
Soon after completing work on the new system we transferred some of the Sanctuary's existing compost into the first stage tumbler. Initial load tests at 3/4 volume capacity were a resounding success. The door, the only sizeable weak point on the barrel, showed no signs of stress, and the roller supports turned smoothly and easily despite the significant weight in the tumbler. This page will be updated as the second and third stage are filled in the next few weeks.
Soon after completing work on the new system we transferred some of the Sanctuary's existing compost into the first stage tumbler. Initial load tests at 3/4 volume capacity were a resounding success. The door, the only sizeable weak point on the barrel, showed no signs of stress, and the roller supports turned smoothly and easily despite the significant weight in the tumbler. This page will be updated as the second and third stage are filled in the coming weeks.


==Discussion and next steps==
==Discussion and next steps==
We expect most of the structural elements of the system to hold up extremely well to the Humboldt weather. However, we expect the bamboo rod we used to hold the rotator's hasps closed and as the turning handles on the rotator to weather fairly quickly. Initially, bamboo was used because the client had a sizable stand of it growing in the yard, but in future projects an alternative may be considered for improved longevity. We suggest treatment of the current bamboo with a weather-resistant coating such as a lacquer or sealant.


==References==
See [[Help:Footnotes]] for more.
{{Reflist}}
{{Reflist}}
[[Category:Engr215 Introduction to Design]]
[[Category:Engr215 Introduction to Design]]
[[Category:Arcata Sanctuary]]
[[Category:Sanctuary Arcata]]
[[Category:Composting]]
[[Category:Composting]]
[[Category:Projects]]
[[Category:Projects]]

Revision as of 06:36, 21 December 2017


Fig 1: Three Stage Rotating Composter

Update December 2017

After a few months of use this design ended up failing in three critical areas. Please consider the following if you are thinking about building your own:

  • The welds holding the rotating barrel aloft were not strong enough on their own to withstand the considerable weight they should hold. Additional frame pieces or reinforced welding needed at top of main support frame.
  • Barrel used for rotating storage chamber ended up deforming under weight. Recommend harder material like stainless steel or hard plastic (food grade).
  • Size of system too small for client's needs. This type of system would be more suited to a home compost situation.

Abstract

In today's world of American waste, it is more important than ever to re-use and re-purpose food scraps in a way that is environmentally conscientious and of use for enriching local soils. The Sanctuary, a community arts and learning non-profit in Arcata California, lives by the tenets of sustainability and ethical stewardship. Team Compost worked with members of the Sanctuary in the fall of 2016 to re-vitalize their composting facilities.

Background

Team Compost was created in the Fall of 2016 at the Humboldt State University's Engineering 215 class. Our client for the ENGR 215 class was The Sanctuary, a creative space for artists and people from the Humboldt community to use tools, take music classes, participate in community events, or teach a skill. A primary interest of the Sanctuary crew was sustainable living and design, so much of their yard was devoted to gardening, building, or composting. Because their old compost system was a do-it-yourself mash-up of an old metal pipe and some trash cans, the process was fairly inefficient and had the added problem of infestation by rats.

Problem statement and criteria

Team Compost's objective was to improve the Sanctuary's compost system by making the design inviting, accessible and rat-proof. The previous compost system was composed of two metal trash cans that were leaking and wet, and a finishing bin that was an old metal rusty container with a non functional lid. The project aimed to upgrade the Sanctuary's old system into a functional composter that is easy to use, easy to maintain, aesthetically pleasing and easily accessible, for a price not to exceed $400. The final design was dubbed the "Three Stage Rotating System."

Team Compost used a set of weighted criteria to best fit the design process to the Sanctuary's needs. The new compost system had to satisfy all criteria in order to last for multiple years. See below for a table that organizes the weighted criteria.

Criteria Importance Constraints
Ease of Use 7 The system's use is readily apparent and easily done by most people.
Durability 10 The improved compost system should last at least two years.
Ease of Maintenance 9 Requires little to no maintenance on the part of the owners.
Pest-Resistance 8 Must keep away pests and rats.
Cost 5 Cost must not exceed $400: $100 provided by the client and $75 per team member.
Aesthetics 4 The system must look inviting enough for people to want to interact with it.
Accessibility 6 Accessible for people of most heights, ages, and ability levels.

Description of final project

Fig 2: Final Design for the Three Stage Composter

The final design met the criteria in a lasting, and effective way. Because the Sanctuary's old compost system was prone to rats, succumbing to the weather, and difficult to use, the new system had to be made of more durable materials while existing in a configuration that would repel pests. In response to these problems, the team formulated the, "Three Stage Rotating System." The rotator design solved two problems at once by elevating the freshest food-waste materials away from access by rats, and by allowing for easy turning and aeration of the compost. The rotating element was extremely important to the team and the client because stirring compost materials frequently can greatly aid in the efficiency of their break-down. Once material in the first stage was broken down enough it would finish in a secondary container, and be stored in a tertiary chamber.

The final configuration was comprised of a 55 gallon drum resting on rollers supported by bicycle forks inserted into a welded frame made of a galvanized steel street sign pole (see fig. 5 & 6). The frame served a dual function by supporting the street signs which made up the walls of the second stage bin. Additional signs were used for a sliding lid and a hinged front door secured with a wood latch (see fig. 7 & 8). Special care was taken in positioning stage two over a heavy wire mesh to prevent tunneling by rats. The final stage was constructed using old shipping palates which were scavenged from the backs of local grocery stores (see fig. 9). Pests were not expected to be an issue in stage three due to the fact that any material added from stage two was expected to be mostly broken down.

Costs

The table below lists materials used on the project and component costs.

Quantity Material Source Cost ($) Total ($)
1 Scrap metal street post(Telespar) Donated 0.00 0.00
1 55 Gallon Barrel Donated 0.00 0.00
4 Bicycle Forks The Bike library 10.00 40.00
4 Bicycle Hubs Donated 0.00 0.00
5 Road Signs Arcata Scrap 37.00 37.00
5 Wood Pallets Donated 0.00 0.00
84 Machine Screws Ace Hardware 00.30 25.20
60 Washers Ace Hardware 00.25 15.00
2 Hasp Ace Hardware 05.20 10.40
3 Hinge Ace Hardware 07.00 21.00
30 Nuts Ace Hardware 00.30 9.00
Total Cost $157.60

How to build

In order to replicate the compost system that was built for the Sanctuary, follow the steps below. All steps have room for variation as scavenged materials may warrant different measurements than the ones used by Team Compost.

File:Cutting_Metal_Framing.JPG
How to build an improved compost system.

Maintenance

The ongoing cost of the system on the sanctuary is expected to be relatively low compared to the cost of implementation in hours and monetary cost. Most structural components are designed to minimize maintenance due to weather resistance. Parts that must be replaced due to weather corrosion are designed around materials that the sanctuary frequently acquires for free: bicycle wheel hubs used for rollers under the tumbler must be re-greased periodically, and wire mesh under the bins must be replaced every few years depending upon corrosion of wires. The hinge and hasp on the rotator door must be re-greased frequently, and in the event of rust must be replaced every 1-2 years to ensure structural strength. Tumbler support struts may need replacement as welded joints corrode.

Schedule

The following guidelines should be followed to ensure proper functioning and longevity of the compost system.

Daily
  • Fill rotator barrel with material to be composted
  • Rotate compost at least three revolutions.
Weekly
  • Remove the pin to release hasps, and empty contents into next bin.
  • Use tool to mix compost in second stage.
Monthly
  • Grease bicycle hubs(rollers) and hinges and hasps to avoid corrosion.
Yearly
  • Replace wire mesh underneath the rotating barrel and second stage.
  • Replace rollers
Every 3 years
  • Replace hinges.
  • The rotating support may need replacement if welded joints corrode.

Troubleshooting

Consult the following table if issues arise with the system. While non-comprehensive, these steps may help improve functionality.

Hinges or hasps are making it difficult to open. Add grease to loosen hinges or hasps.
Contents of Stage 1 not emptying properly. Rotate barrel several times with the door closed, and try emptying again. If it is still binding consider excavating by hand.
Rollers binding/ barrel difficult to turn. Remove wheel hubs and re-grease bearings.
Stage 1 or Stage 2 becoming watery and smelly. Mix contents daily, or as often as possible.

Testing Results

Soon after completing work on the new system we transferred some of the Sanctuary's existing compost into the first stage tumbler. Initial load tests at 3/4 volume capacity were a resounding success. The door, the only sizeable weak point on the barrel, showed no signs of stress, and the roller supports turned smoothly and easily despite the significant weight in the tumbler. This page will be updated as the second and third stage are filled in the coming weeks.

Discussion and next steps

We expect most of the structural elements of the system to hold up extremely well to the Humboldt weather. However, we expect the bamboo rod we used to hold the rotator's hasps closed and as the turning handles on the rotator to weather fairly quickly. Initially, bamboo was used because the client had a sizable stand of it growing in the yard, but in future projects an alternative may be considered for improved longevity. We suggest treatment of the current bamboo with a weather-resistant coating such as a lacquer or sealant.


Template:Reflist

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