m (Text replacement - "| affiliations = " to "| organizations = ")
 
(60 intermediate revisions by 9 users not shown)
Line 1: Line 1:
[[File:Rubble trench foundation jpeg.png|thumb|right|400px|Figure 1: Rubble Trench Foundation Test Structure<ref name="rubble">Rubble Trench Foundation Test Structure. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010</ref>]]
[[File:Final trench.jpg|thumb]]
==Abstract==


''The Rubble Trench Foundation is a solution that uses rubble as a resource to create secure foundations in Haiti. The Rubble Trench Foundation is designed to utilize rubble created by the 2010 earthquake in January and to employ as many Haitians as possible in the process of constructing rubble trenches.
{{Project data
''
| authors = Team Rubblution, User:Curran, User:Cew52, User:Annie.bartholomew, User:Ndb21
| status = Deployed
| completed = 2010
| cost = USD 22.26
| instance-of = World shelters
| location = Haiti
}}


==Background==
The goal of the Engineering 215 Spring Semester of 2010 Rubble to Resource project was to find a use for the rubble created by the January earthquake in [[Haiti]]. The Rubble Trench Foundation is designed to utilize this rubble and to employ as many Haitians as possible in the process of constructing rubble trenches.
On Tuesday, 12 January 2010 a magnitude 7.0  earthquake hit Haiti. This earthquake caused massive damage in 3 major cities and the countryside surrounding the epicenter. The Haitian Government reported that an estimated 230,000 people had died,
300,000 had been injured and 1,000,000 had been left homeless.<ref name="Hurricane">2010 Haiti Earthquake. Wikipedia. Retrieved April 26, 2010. http://en.wikipedia.org/wiki/Haiti_Earthquake</ref>


==Problem Statement and Criteria==
== Background ==
After the 7.0 earthquake in Haiti last January, many buildings were reduced to rubble, which is now inhibiting the construction of new buildings. With no place for this rubble to go, World Shelters has asked that a solution be found, so that the rubble in Haiti could be used as part of the reconstruction of Haiti.
 
===Criteria===
On Tuesday, 12 January 2010 a magnitude 7.0 earthquake hit Haiti.<ref>Magnitude 7.0 Earthquake -Haiti Region. U.S Geological Survey. Retrieved May 6, 2010. http://earthquake.usgs.gov/earthquakes/?source=sitenav</ref> This earthquake caused massive damage in 3 major cities and the countryside surrounding the epicenter.<ref name="brief">EXECUTIVE BRIEF: HAITI. U.S. Agency for International Development(2010, January 26). Retrieved April 26, 2010. http://pdf.usaid.gov/pdf_docs/PNADR321.pdf</ref> The Haitian Government reported that an estimated 115,000 people had died,
{| class="wikitable sortable"
200,000 had been injured and many more have been left homeless.<ref name="brief" />
|-
 
[http://worldshelters.org/home World Shelters] worked with the [[Engr205 Introduction to Design]] class at [http://www.humboldt.edu Cal Poly Humboldt] to create solutions to improve areas in disaster. Team Rubblution was assigned the task of creating a solution that utilized rubble to rebuild Haiti. Team Rubbultion designed a rubble trench foundation to use rubble created in Haiti's 2010 earthquake to support relief structures.
 
== Problem Statement and Criteria ==
 
After the 7.0 earthquake in Haiti during January of 2010, many buildings were reduced to rubble, which is now inhibiting the construction of new buildings. With no place for this rubble to go, World Shelters has asked the Rubble to Resource project to find a solution, so that the rubble in Haiti could be used as part of the reconstruction of Haiti.
 
=== Criteria ===
 
{| class="wikitable"
! Criteria
! Criteria
! Description
! Description
! Weight
! Weight
|-
|-
|Safety
| Safety
|Withstand Hurricanes and Earthquakes
| Withstand Hurricanes and Earthquakes
|align="right"| 10
| align="right" |10
|-
|-
|Level of Labor Creation  
| Level of Labor Creation
|create as much local labor as possible to revitalize the economy
| create as much local labor as possible to revitalize the economy
|align="right"| 8
| align="right" |8
|-
|-
|Ease of Mass Production  
| Ease of Mass Production
|needs to be produced on a massive scale  
| needs to be produced on a massive scale
|align="right"| 8
| align="right" |8
|-
|-
|Cost
| Cost
|needs to have enough spending to support works but not enough to bankrupt the project
| needs to have enough spending to support works but not enough to bankrupt the project
|align="right"|6
| align="right" |6
|-
|-
|Use of Local Materials
| Use of Local Materials
|Use only local material to cut down on cost and carbon footprint
| Use only local material to cut down on cost and carbon footprint
|align="right"|6
| align="right" |6
|-
|Ease of Assembly
|needs to be able to be build by Haitian workers
|align="right"|5
|-
|-
| Ease of Assembly
| needs to be able to be build by Haitian workers
| align="right" |5
|}
|}


==Description of Final Project==
== Description of Final Project ==


[[Image:Final trench.jpg|thumb|right|100*200px|Figure 2: Final Trench Foundation <ref name="trench">Final Trench Foundation. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010</ref>]]
[[File:Rubble Trench Cross Section.JPG|thumb|Figure 2: Cross Section of Rubble Trench Foundation]]
The Ruble Trench foundation system uses recycled concrete rubble left over from buildings that were destroyed in Haiti during the 7.0 earthquake mid-January 2010. Figure 2 shows the complete foundation.


The Rubble Trench Foundation System can be used to support various new building structures in Haiti built by World Shelters and other organizations, and could be used in other locations.  
The Ruble Trench foundation system uses recycled concrete rubble left over from buildings that were destroyed in Haiti during the 7.0 earthquake mid-January 2010. Figure 1 shows the complete foundation.
 
The Rubble Trench Foundation System can be used to support various new building structures in Haiti built by World Shelters and other organizations, and could be used in other locations.


This design provides more support against hurricanes and earthquakes than previous foundation systems used in Haiti. The Rubble Trench Foundation System provides work to unskilled laborers in Haiti and other locations where World Shelters works.
This design provides more support against hurricanes and earthquakes than previous foundation systems used in Haiti. The Rubble Trench Foundation System provides work to unskilled laborers in Haiti and other locations where World Shelters works.


==Costs==
== Costs ==


=== Design Hours ===


Throughout the length of the project we have recorded the time we have spent on each phase of our process, as seen in Figure 3. In total we have spent 143 hours on our project. A majority of our time went into our Literature Review, in which we researched how rubble has been used or removed in the past, and into our Implementation and Testing phase, in which we dug our half-scale trench and tested it.


=== Design Hours ===
[[File:Time Chart.jpg|thumb|600x400px|center|Figure 3: Design Cost (Hours)]]


Throughout the length of the project we have recorded the time we have spent on each phase of our process, as seen in Figure 3. In total we have spent 143 hours on our project. A majority of our time went in to our Literature Review, in which we researched how rubble has been used or removed in the past, and in to our Implementation and Testing phase, in which we dug our half-scale trench and tested it.
=== Implementation Costs ===
[[File:Time_Chart.jpg|thumb|600x400px|center|Figure 3: Design Cost(Hours)]]


=== Implementation Costs ===
The costs for the Rubble Trench Foundations were fairly low as shown in the table below. Our total cost for our half scale representation totaled at $11.68. When made in full scale, we estimated that the cost of the Rubble Trench Foundation totals at $23.36.
The costs for the Rubble Trench Foundations were fairly low as shown in the table below. Our total cost for our half scale representation totaled at $11.68. When made in full scale, we estimated that the cost of the Rubble Trench Foundation totals at $23.36.
{|class="wikitable"
 
|-
{| class="wikitable"
! Materials
! Materials
! Quantity
! Quantity
Line 71: Line 83:
|-
|-
| Rubble
| Rubble
| align="right"| 12 ft<sup>3</sup>
| align="right" |12 ft<sup>3</sup>
| align="right"| Donated
| align="right" |Donated
|-
|-
| 3" x 10' PVC Pipe
| 3" x 10' PVC Pipe
| align="right"| 2
| align="right" |2
| align="right"| $5.84
| align="right" |$5.84
|-
|-
! Half-Scale Total
! Half-Scale Total
!  
!
! align="right"| $11.68
! align="right" |$11.68
|-
|-
! Full-Scale Total
! Full-Scale Total
!
!
! align="right"| $22.26
! align="right" |$22.26
|}
|}


=== Maintenance Cost ===
=== Maintenance Cost ===
Because Rubble Trench Foundations will most likely have immovable structures place on top of it, there is no way this design could undergo maintenance until said structure is removed.
Because Rubble Trench Foundations will most likely have immovable structures place on top of it, there is no way this design could undergo maintenance until said structure is removed.


==Testing and Results==
== Testing and Results ==
The Rubble Trench Foundation that was tested by team Rubblution in cooperation with team Humangineers. Team Humangineers used dirt as a resource to build relief structures out of soil-filled bags. These bags were placed directly on top of the trench and provided direct weight on top of the Rubble Trench Foundation. The trench was built to a half scale model for an 8’ x 6’ structure.  
 
[[File:Rubble trench foundation jpeg.png|thumb|Figure 4: Final Trench Foundation<ref name="trench">Final Trench Foundation. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010</ref>]]
 
The Rubble Trench Foundation that was tested by team Rubblution in cooperation with team Humangineers. Team Humangineers project used dirt as a resource to build relief structures out of soil-filled bags, and was called [[WorldShelters Bags of Shelter]]. These bags were placed directly on top of the trench and provided direct weight on top of the Rubble Trench Foundation. The trench was built to a half scale model for an 8' x 6' structure.


The structure was left in the rain for three days and settling was calculated based on the initial and final heights of the sand bag structure. The north side of our trench had approximately 3500 lbs whereas the south side had about 1900 lbs. The north and south side's final settling amounted to 2" and 1" respectively. Further testing results are found in the results table.
The structure was left in the rain for three days and settling was calculated based on the initial and final heights of the sand bag structure. The north side of our trench had approximately 3500 lbs whereas the south side had about 1900 lbs. The north and south side's final settling amounted to 2" and 1" respectively. Further testing results are found in the results table.


{| class="wikitable"  
{| class="wikitable"
|-
!
!  
! Weight on Structure (lbs)
! Weight on Structure (lbs)
! Initial Height (in)
! Initial Height (in)
Line 103: Line 118:
! Settling Height (in)
! Settling Height (in)
! Final Settling (lbs/in)
! Final Settling (lbs/in)
|-
|-
| North Wall
| North Wall
| align="right"| 3500
| align="right" |3500
| align="right"| 48
| align="right" |48
| align="right"| 46
| align="right" |46
| align="right"| 2
| align="right" |2
| align="right"| 1800
| align="right" |1800
|-
|-
| South Wall
| South Wall
| align="right"| 1900
| align="right" |1900
| align="right"| 24
| align="right" |24
| align="right"| 23
| align="right" |23
| align="right"| 1
| align="right" |1
| align="right"| 1900
| align="right" |1900
|}
|}


From the settling values located in table above , it is recommended to place weight greater than 2,000 pounds directly on top of the Rubble Trench Foundation. It is also recommended to first build a test rubble trench in new locations to test the settling for different variables including soil composition, precipitation, and distance from the water table.
[[File:Final trench.jpg|thumb|333x333px|Figure 1: Rubble Trench Foundation Test Structure<ref name="rubble">Rubble Trench Foundation Test Structure. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010</ref>|alt=]]
 
From the settling values located in table above, it is recommended to place weight greater than 2,000 pounds directly on top of the Rubble Trench Foundation. It is also recommended to first build a test rubble trench in new locations to test the settling for different variables including soil composition, precipitation, and distance from the water table.
 
== Discussion and Next Steps ==
 
The testing that was covered in our research is not comprehensive enough to make the Rubble Trench Foundation suitable for sites outside of Arcata Ca, US. Site specific conditions including soil composition, precipitation, and other variables need to be considered. Test structures need to be made on site where building is desired in order to properly prepare for these variables.
 
== References ==
 
<references />


==Discussion and Next Steps==
{{Page data
The testing that was covered in our research is not comprehensive enough to make the Rubble Trench Foundation suitable for everywhere. Site specific conditions including soil composition, precipitation, and other variables need to be considered. Testing structures need to be made in the place where building is desired in order to properly prepare for these variables.
| keywords = world shelters, rubble, concrete rubble, pvc
| sdg = SDG10 Reduced inequalities
| published = 2010
| organizations = World Shelters Foundation, Cal Poly Humboldt, Engr205 Introduction to Design
| license = CC-BY-SA-3.0
| language = en
}}


==References==
[[Category:World Shelters]]
{{Reflist}}
[[Category:Engr215 Introduction to Design]]

Latest revision as of 17:44, 28 February 2024

Final trench.jpg
FA info icon.svg Angle down icon.svg Project data
Authors Team Rubblution
Curran Benjamin Hamilton
Chris Wells
asb59@humboldt.edu
Nathan Braun
Location Haiti
Status Deployed
Completed 2010
Cost USD 22.26
Instance of World shelters
OKH Manifest Download

The goal of the Engineering 215 Spring Semester of 2010 Rubble to Resource project was to find a use for the rubble created by the January earthquake in Haiti. The Rubble Trench Foundation is designed to utilize this rubble and to employ as many Haitians as possible in the process of constructing rubble trenches.

Background[edit | edit source]

On Tuesday, 12 January 2010 a magnitude 7.0 earthquake hit Haiti.[1] This earthquake caused massive damage in 3 major cities and the countryside surrounding the epicenter.[2] The Haitian Government reported that an estimated 115,000 people had died, 200,000 had been injured and many more have been left homeless.[2]

World Shelters worked with the Engr205 Introduction to Design class at Cal Poly Humboldt to create solutions to improve areas in disaster. Team Rubblution was assigned the task of creating a solution that utilized rubble to rebuild Haiti. Team Rubbultion designed a rubble trench foundation to use rubble created in Haiti's 2010 earthquake to support relief structures.

Problem Statement and Criteria[edit | edit source]

After the 7.0 earthquake in Haiti during January of 2010, many buildings were reduced to rubble, which is now inhibiting the construction of new buildings. With no place for this rubble to go, World Shelters has asked the Rubble to Resource project to find a solution, so that the rubble in Haiti could be used as part of the reconstruction of Haiti.

Criteria[edit | edit source]

Criteria Description Weight
Safety Withstand Hurricanes and Earthquakes 10
Level of Labor Creation create as much local labor as possible to revitalize the economy 8
Ease of Mass Production needs to be produced on a massive scale 8
Cost needs to have enough spending to support works but not enough to bankrupt the project 6
Use of Local Materials Use only local material to cut down on cost and carbon footprint 6
Ease of Assembly needs to be able to be build by Haitian workers 5

Description of Final Project[edit | edit source]

Figure 2: Cross Section of Rubble Trench Foundation

The Ruble Trench foundation system uses recycled concrete rubble left over from buildings that were destroyed in Haiti during the 7.0 earthquake mid-January 2010. Figure 1 shows the complete foundation.

The Rubble Trench Foundation System can be used to support various new building structures in Haiti built by World Shelters and other organizations, and could be used in other locations.

This design provides more support against hurricanes and earthquakes than previous foundation systems used in Haiti. The Rubble Trench Foundation System provides work to unskilled laborers in Haiti and other locations where World Shelters works.

Costs[edit | edit source]

Design Hours[edit | edit source]

Throughout the length of the project we have recorded the time we have spent on each phase of our process, as seen in Figure 3. In total we have spent 143 hours on our project. A majority of our time went into our Literature Review, in which we researched how rubble has been used or removed in the past, and into our Implementation and Testing phase, in which we dug our half-scale trench and tested it.

Figure 3: Design Cost (Hours)

Implementation Costs[edit | edit source]

The costs for the Rubble Trench Foundations were fairly low as shown in the table below. Our total cost for our half scale representation totaled at $11.68. When made in full scale, we estimated that the cost of the Rubble Trench Foundation totals at $23.36.

Materials Quantity Cost
Rubble 12 ft3 Donated
3" x 10' PVC Pipe 2 $5.84
Half-Scale Total $11.68
Full-Scale Total $22.26

Maintenance Cost[edit | edit source]

Because Rubble Trench Foundations will most likely have immovable structures place on top of it, there is no way this design could undergo maintenance until said structure is removed.

Testing and Results[edit | edit source]

Figure 4: Final Trench Foundation[3]

The Rubble Trench Foundation that was tested by team Rubblution in cooperation with team Humangineers. Team Humangineers project used dirt as a resource to build relief structures out of soil-filled bags, and was called WorldShelters Bags of Shelter. These bags were placed directly on top of the trench and provided direct weight on top of the Rubble Trench Foundation. The trench was built to a half scale model for an 8' x 6' structure.

The structure was left in the rain for three days and settling was calculated based on the initial and final heights of the sand bag structure. The north side of our trench had approximately 3500 lbs whereas the south side had about 1900 lbs. The north and south side's final settling amounted to 2" and 1" respectively. Further testing results are found in the results table.

Weight on Structure (lbs) Initial Height (in) Final Height (in) Settling Height (in) Final Settling (lbs/in)
North Wall 3500 48 46 2 1800
South Wall 1900 24 23 1 1900
Figure 1: Rubble Trench Foundation Test Structure[4]

From the settling values located in table above, it is recommended to place weight greater than 2,000 pounds directly on top of the Rubble Trench Foundation. It is also recommended to first build a test rubble trench in new locations to test the settling for different variables including soil composition, precipitation, and distance from the water table.

Discussion and Next Steps[edit | edit source]

The testing that was covered in our research is not comprehensive enough to make the Rubble Trench Foundation suitable for sites outside of Arcata Ca, US. Site specific conditions including soil composition, precipitation, and other variables need to be considered. Test structures need to be made on site where building is desired in order to properly prepare for these variables.

References[edit | edit source]

  1. Magnitude 7.0 Earthquake -Haiti Region. U.S Geological Survey. Retrieved May 6, 2010. http://earthquake.usgs.gov/earthquakes/?source=sitenav
  2. 2.0 2.1 EXECUTIVE BRIEF: HAITI. U.S. Agency for International Development(2010, January 26). Retrieved April 26, 2010. http://pdf.usaid.gov/pdf_docs/PNADR321.pdf
  3. Final Trench Foundation. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010
  4. Rubble Trench Foundation Test Structure. Tahsa Sturgis. Photo Taken April 2010. Retrieved May 5, 2010
Cookies help us deliver our services. By using our services, you agree to our use of cookies.