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{{Template:ENGR215inprogress|12/16/2016}}
[[File:Arcata sanctuary picture 1.jpg|thumb]]
[[File:Teamfoursquaredteampicture.png | thumb | right | '''Team Four Squared:''' Top: Baylee Carson, Middle: Jennifer Turk, Juliette Cortez, Bottom: Christopher Bautista ]]
 
==Abstract==
{{Project data
The purpose of this project was to build a greywater filtration system to reduce fresh water use and inspire other to create reusable water resources. Our client hosts large parties and events regularly meaning many people from the community spend time at the site. Our team made the system look as inspirational as possible so that when community members see it, it may inspire them to create one of their own. A "How To" Manual can be found below to allow others to recreate our system at their own homes. This system specifically filters water from two kitchen sinks, however, it can be modified to filter washing machine runoff or showers. Below is a description of the final project team four squared built at the Sanctuary.
| authors = User:JULIETTECORTEZ, User:Chris Bautista, User:Baylee, User:Jennymt941
[[Image:Teamfoursquaredteampicture.png|thumb|middle| Fig 1: Team Four Sqaured Christopher Bautista(Bottom), Baylee Carson(top), Juliette Cortez(right), Jennifer Turk(left)]]
| status = Deployed
[[Image:Picture1.jpg|thumb|Fig 3: Overview of Greywater system]]
| completed = 2016
[[Image:Screenshot 2016-11-07 13.10.28.png| thumb | left | Fig 2: Overview of CAD]]
| cost = USD 113.39
| instance-of = Greywater system
}}
 
[[File:Teamfoursquaredteampicture.png|thumb|'''Team Four Squared:''' Top: Baylee Carson, Middle: Jennifer Turk, Juliette Cortez, Bottom: Christopher Bautista]]
 
The purpose of this project was to build a greywater filtration system to reduce fresh water use and inspire other to create reusable water resources. Our client hosts large parties and events regularly meaning many people from the community spend time at the site. Our team made the system look as inspirational as possible so that when community members see it, it may inspire them to create one of their own. A "How To" Manual can be found below to allow others to recreate our system at their own homes. This system specifically filters water from two kitchen sinks, however, it can be modified to filter washing machine runoff or showers. Below is a description of the final project team four squared built at the Sanctuary.


== Background ==
== Background ==
Team Four Squared is a group of Humboldt State University students who are a part of the Engineering 215 - Introduction to Design class of Fall 2016. Our client, The Sanctuary, located on J street in Arcata, CA is a community building dedicated to offering a creative space where members of the community can grow, create and build not just physical things but experiences and memories as well. This greywater system will serve not only as a water filtration station but also as inspiration for others to build their own greywater filtration systems.
 
Team Four Squared is a group of Cal Poly Humboldt students who are a part of the Engineering 215 - Introduction to Design class of Fall 2016. Our client, The Sanctuary, located on J street in Arcata, CA is a community building dedicated to offering a creative space where members of the community can grow, create and build not just physical things but experiences and memories as well. This greywater system will serve not only as a water filtration station but also as inspiration for others to build their own greywater filtration systems.


== Problem statement and criteria ==
== Problem statement and criteria ==
The objective of this project was to reduce the amount of city water that the Sanctuary uses outdoors. Our system filters the kitchen sink water from the neighboring house allowing the Sanctuary to use recycled water for outdoor use. The recycled water that will be coming from our system will be primarily used for irrigating the sanctuary's garden.


{| class="wikitable sortable"
The objective of this project was to reduce the amount of city water that the Sanctuary uses outdoors. Our system filters the kitchen sink water from the neighboring house allowing the Sanctuary to use recycled water for outdoor use. The recycled water that will be coming from our system will be primarily used for irrigating the sanctuary's garden.
 
{| class="wikitable"
! Criteria
! Importance
! Constraints
|-
|-
!Criteria
| Aesthetics
!Importance
| 10
!Constraints
| Must look professional for adults who come to learn about the system.
|-
|-
|Aesthetics
| Reuse of materials
|10
| 9
|People need to be inspired to want to replicate this project.
| 90% of the materials used must be reused or upcycled.
|-
|-
|Reuse of materials
| Cost
|9
| 8
|90% of the materials used must be reused or upcycled.
| No more than $400 may be spent
|-
|-
|Cost
| Maintenance
|8
| 7
|No more than $400 may be spent
| The system needs to be able to be maintained by 2 adults.
|-
|-
|Maintenance
| Ease of use
|7
| 6
|The system needs to be able to be maintained by 2 adults.
| The system needs to be able to be used by any one adult.
|-
|-
|Ease of use
| Safety
|6
| 5
| The system needs to be able to be used by any adult.
| Must be safe for all persons including children. Also must be safe for the ducks that live on the property.
|-
|Safety
|5
|Humans or animals may not come in contact with the greywater.  
|}
|}


== Description of final project ==
== Description of final project ==


[[File:Detailed EX GWsystem.png|thumb|Fig 1: Overview of CAD]]


[[File:Arcata sanctuary picture 1.jpg|thumb|Fig 2: Overview of Greywater system]]
This grey water system was built for The Sanctuary in Arcata by team FourSqaured. The purpose of this system is to save water by recycling it through biological filtration. Before our newly built system, The Sanctuary used unfiltered sink water to water their garden. This new system consists of a grease trap, two repurposed bathtubs and a hose attachment so that The Sanctuary can use filtered water to irrigate their garden. The objective of this project was to use the least amount of embedded energy when creating our project by using recycled materials.
Grease Trap: For this grease trap our team used repurposed plastic buckets that are placed side by side and connected by a 5" long pipe at the bottom. These buckets are side by side because the "wall" in between the buckets acts as a trap for grease. Water is coming from the sink, meaning there is a large amount of grease in the water. In the first bucket, where water enters from the house, a screen 5" in depth lies on the top of the bucket. Inside this screen are a few layers of straw and other grease absorbing plants/material. The point of this first bucket is to trap the grease on the top of the water where the plants/material can absorb the grease. Less greasy water then travels through the 5" long pipe into the second bucket. Once enough grey water fills the second bucket it will flow into the first tub for further filtration.
Tub One: Tub one contains ten five gallon buckets full of large gravel, four vertical baffles placed on opposite sides (see Fig 1), five different species of marsh plants were used for nutrient uptake and a planter bucket for ease of maintenance. The planter bucket provides ease of maintenance because a screen 5" deep in the bucket lies beneath the water outlet allowing for access of the pipe and screen. Water then percolates through holes in the planter bucket where further filtration occurs through gravel, baffles, and plants. The baffles we used are cut out pieces of repurposed plastic bins. Baffles help to redirect and slow the movement of water. Plants are a huge component of this system, plants from the marsh were used since they have higher absorption rates of nutrients. The plants used were the following: Mugwort, Fuchsia, Succulents, Bulrush and Cattails. Water flows from the planter bucket to the overflow hole at the end of the tub. The overflow hole connects to a pipe that moves the water to tub 2.
Tub Two: The water entering from tub one then drains into tub two where a similar set up as tub one is in place; however, smaller gravel and large rooted plants(e.g. blue iris) were used. Once the water travels to the opposite end of the tub, water flows out of the tub and through a connection where water can drain, or a hose can be attached.
=== Cost Table ===


===Cost Table===
Total Costs of Grey water System:
Total Costs of Grey water System:
{| class="wikitable sortable"
 
! Quantity !! Material !! Source !! Cost ($) !! Total ($)
{| class="wikitable"
! Quantity
! Material
! Source
! Cost ($)
! Total ($)
|-
| 2
| bathtubs
|
| align="right" |25.00
| align="right" |50.00
|-
| 1
| 2.5" Plug
|
| align="right" |5.43
| align="right" |5.43
|-
| 1
| 2" plug
|
| align="right" |10.99
| align="right" |10.99
|-
| 1
| 2" hole to elbow adapter
|
| align="right" |8.99
| align="right" |8.99
|-
| 1
| 2" hole to hose adapter
|
| align="right" |13.99
| align="right" |13.99
|-
| 6
| 1 foot long 2" wide pipe
|
| align="right" |0.00
| align="right" |0.00
|-
| 20
| Plants
|
| align="right" |0.00
| align="right" |0.00
|-
|-
| 2|| bathtubs||  
| 6
|align="right"| 25.00  
| baffles
|align="right"| 50.00
|
| align="right" |0.00
| align="right" |0.00
|-
|-
| 1 || 2.5" Plug||  
| 2
|align="right"| 5.43
| elbow pipes
|align="right"| 5.43
|
| align="right" |6.99
| align="right" |13.98
|-
|-
| 1 || 2" plug||  
| 10
|align="right"| 0.00
| 5 gal pea gravel
|align="right"| 0.00
|
|-
| align="right" |0.50
| 1|| 2" hole to elbow adapter||
| align="right" |5.00
|align="right"| 8.99
|align="right"|8.99
|-
|-
| 1 || 2" hole to hose adapter||
| 10
|align="right"| 13.99
| 5 gal larger gravel
|align="right"| 13.99
|
|- 
| align="right" |0.50
| 6 || 1 foot long 2" wide pipe||  
| align="right" |5.00
|align="right"| 0.00
|align="right"| 0.00
|-
| 20 || Plants||
|align="right"| 0.00
|align="right"|0.00
|-
|-
| 6 || baffles||
| 2
|align="right"| 0.00
| screens
|align="right"| 0.00
|
|- 
| align="right" |0.00
| 2 || elbow pipes||
| align="right" |0.00
|align="right"| 6.99
|align="right"|13.98
|-
| 10 || 5 gal pea gravel||
|align="right"| 0.50
|align="right"| 5.00
|-
| 10 || 5 gal larger gravel||
|align="right"| 0.50
|align="right"| 5.00
|-
| 2|| screens||  
|align="right"| 0.00
|align="right"| 0.00
|-
|-
|-class="sortbottom"
|- class="sortbottom"
|colspan="4" align="right" | '''Total Cost'''  
| colspan="4" align="right" |'''Total Cost'''
|align="right" | '''$102.39'''
| align="right" |'''$113.39'''
|}
|}


==Testing Results==
== Testing Results ==
The Sanctuary will not be using this system during the winter. So in February we will have more data. This video describes how the water would flow if the system was working properly.  
 
{{copyedit| would be awesome to see a video}}
The Sanctuary will not be using this system during the winter. So in February we will have more data. This video describes how the water would flow if the system was working properly.


{{#widget:YouTube|id=3DIEj7ZFkVc}}
{{Video|3DIEj7ZFkVc}}


==How to build==
== How to build ==
This section gives a step by step explanation on how to build this system, explaining piping and materials used.  
 
{{copyedit| Is there a reason why there is a link to how to? Give overview of section. In explanations, be clear of instructions i.e. think as the reader can you follow along. Introduce this section.}}
This section gives a step by step explanation on how to build this system, explaining piping and materials used.
{{How to
 
|title= Greywater system HOW TO
{{Step
|header1= Example pictures
| number = 1
|header2= Explanation
| text = PIPING INTO GREASE TRAP: First, cut a hole 2" below the rim of the bucket. It should match the size of the pipe coming from the house(greywater input).
|pics=  
|size=  
|File:IMG 0917.JPG |Caption |1 |PIPING INTO GREASE TRAP: First, cut a hole 2" below the rim of the bucket. It should match the size of the pipe coming from the house(greywater input).  
Two buckets that are side by side are used to divide the grease. In the first bucket, grease floats to the top while less greasy water flows to the next bucket.
Two buckets that are side by side are used to divide the grease. In the first bucket, grease floats to the top while less greasy water flows to the next bucket.
|File:Greasetrap screen.JPG |Caption |2 | FIRST GREASE TRAP BUCKET: Inside this bucket is a screen 3"-4" deep. Grease is trapped at the top of the screen which contains straw and other grease absorbing plants. Less greasy water remains at the bottom of the bucket and passes into the second bucket through a pipe 1" above the bottom of the bucket.  
| image = File:IMG 0917.JPG
|File:Output hole.JPG |Caption |3 | PIPING & SECOND GREASE TRAP: A hole should be cut 1" above the bottom of the second bucket. A 5" long pipe connects the first and second buckets together. Less greasy water then flows into the second grease trap bucket. Another hole should be cut 1" below the rim. Once water rises to the top of the second bucket, it will flow into tub 1.  
| caption = Caption
|File:ABSpipe.JPG |Caption |4 | CONNECTING PIPE & PLANTER BUCKET IN TUB 1: The pipe from the second grease traps connect to an ABS elbow pipe that allows the pipe to go towards the bottom of the tub. This pipe resides 5" deep inside the planter bucket. Right underneath the output of the pipe is a screen 5" in depth so that they fit snug in the planter bucket. The planter bucket contains a series of small holes on the sides so water can seep out.  
}}
|File:Tub 1.JPG |Caption |5 | TUB 1: Contains a planter bucket. Around this planter bucket is large gravel that fills the tub past its overflow hole. Vertical baffles are to be placed on opposite sides, about 4" apart from one another. Baffles should be touching the bottom and sides of the tub. Plants can be arranged in any way but should be 5" deep in the tub.  
 
|File:Sanctuary_greywater_pipe.JPG |Caption |6 | PIPE REDIRECTING WATER TO TUB 2: Inside the overflow hole is a "rubber layer" that goes around a 2" diameter ABS pipe. An ABS elbow then connects to a 2" diameter pipe that leads to tub 2.  
{{Step
|File:Planter bucket 2.JPG |Caption |7 | PLANTER BUCKET IN TUB 2: The pipe connects to an ABS elbow that allows the pipe to go towards the bottom of the tub. This planter bucket is similar to tub 1.
| number = 2
|File:Tub 2.JPG |Caption |8 | TUB 2: Contains planter bucket and small gravel the fills the entire tub, over the overflow hole. Horizontal baffles are placed 4" apart from each other and large rooted plants are inserted 6" under the gravel.  
| text = FIRST GREASE TRAP BUCKET: Inside this bucket is a screen 3"-4" deep. Grease is trapped at the top of the screen which contains straw and other grease absorbing plants. Less greasy water remains at the bottom of the bucket and passes into the second bucket through a pipe 1" above the bottom of the bucket.
|File:Hose attachment.JPG |Caption |9 | CONNECTING OVERFLOW HOLE TO HOSE: Inside the overflow hole is "rubber layer" that goes around a 5" long pipe. this pipe connects to a male adapter with a brass female hose and male pipe. Then the hose attaches and is ready for irrigation.   
| image = File:Greasetrap screen.JPG
|footer= Footer
| caption = Caption
}}
 
{{Step
| number = 3
| text = PIPING & SECOND GREASE TRAP: A hole should be cut 1" above the bottom of the second bucket. A 5" long pipe connects the first and second buckets together. Less greasy water then flows into the second grease trap bucket. Another hole should be cut 1" below the rim. Once water rises to the top of the second bucket, it will flow into tub 1.
| image = File:Output hole.JPG
| caption = Caption
}}
 
{{Step
| number = 4
| text = CONNECTING PIPE & PLANTER BUCKET IN TUB 1: The pipe from the second grease traps connect to an ABS elbow pipe that allows the pipe to go towards the bottom of the tub. This pipe resides 5" deep inside the planter bucket. Right underneath the output of the pipe is a screen 5" in depth so that they fit snug in the planter bucket. The planter bucket contains a series of small holes on the sides so water can seep out.
| image = File:ABSpipe.JPG
| caption = Caption
}}
 
{{Step
| number = 5
| text = TUB 1: Contains a planter bucket. Around this planter bucket is large gravel that fills the tub past its overflow hole. Vertical baffles are to be placed on opposite sides, about 4" apart from one another. Baffles should be touching the bottom and sides of the tub. Plants can be arranged in any way but should be 5" deep in the tub.
| image = File:Tub 1.JPG
| caption = Caption
}}
 
{{Step
| number = 6
| text = PIPE REDIRECTING WATER TO TUB 2: Inside the overflow hole is a "rubber layer" that goes around a 2" diameter ABS pipe. An ABS elbow then connects to a 2" diameter pipe that leads to tub 2.
| image = File:Sanctuary_greywater_pipe.JPG
| caption = Caption
}}
 
{{Step
| number = 7
| text = PLANTER BUCKET IN TUB 2: The pipe connects to an ABS elbow that allows the pipe to go towards the bottom of the tub. This planter bucket is similar to the tub ones planter bucket.
| image = File:Planter bucket 2.JPG
| caption = Caption
}}
 
{{Step
| number = 8
| text = TUB 2: Contains a planter bucket and small gravel that fills the tub past its overflow hole. Horizontal baffles are placed 4" apart from each other and large rooted plants are inserted 6" under the gravel.
| image = File:Tub 2.JPG
| caption = Caption
}}
}}
{{Step
| number = 9
| text = CONNECTING OVERFLOW HOLE TO HOSE: Inside the overflow hole is "rubber layer" that goes around a 5" long pipe. this pipe connects to a male adapter with a brass female hose and male pipe. Then the hose attaches and is ready for irrigation.
| image = File:Hose attachment.JPG
| caption = Caption
}}
Footer


== Maintenance ==
== Maintenance ==
It is important to properly maintain this system otherwise it may not work properly. The majority of time maintaining this system is only done every few years, with small amounts of cleaning on an as needed basis.
It is important to properly maintain this system otherwise it may not work properly. The majority of time maintaining this system is only done every few years, with small amounts of cleaning on an as needed basis.


=== Schedule ===
=== Schedule ===
This maintenance schedule will provide steps that can be taken on a daily,weekly,monthly,and yearly basis to ensure proper functionality of the system.  
 
This maintenance schedule will provide steps that can be taken on a daily,weekly,monthly,and yearly basis to ensure proper functionality of the system.


;Daily
;Daily
*Check for clogs or build up in the input tank, empty and wash out the filter as needed (3 min).
 
*Check for clogs or leaks in the outputs of tub 1 and 2, empty and wash out as needed (2-10 Min).
* Check for clogs or build up in the input tank, empty and wash out the filter as needed (3 min).
* Check for clogs or leaks in the outputs of tub 1 and 2, empty and wash out as needed (2-10 Min).


;Weekly
;Weekly
*Take out any plants that may have died as needed(2 min).
 
*Clean out any build up that may have formed in the input buckets of tub 1 and tub 2 (5 min).
* Take out any plants that may have died as needed(2 min).
*Replace the hay filter in the input tanks and remove excess grease (5 min).
* Clean out any build up that may have formed in the input buckets of tub 1 and tub 2 (5 min).
* Replace the hay filter in the input tanks and remove excess grease (5 min).


;Monthly
;Monthly
*Check to make sure there isn't any build up of debris in the pipes of inputs (5 Min).
 
* Check to make sure there isn't any build up of debris in the pipes of inputs (5 Min).


;Yearly
;Yearly
*Replace any buckets or pipes that may have been broken or cracked during the winter months  
 
* Replace any buckets or pipes that may have been broken or cracked during the winter months


;Every 3 years
;Every 3 years
*Run copious amounts of water through the rocks and plants to clean out all of the nutrients and debris that have formed over time (1 hour).
*If necessary replace any rocks, buckets, or pipes that need to be replaced due to damage or malfunctions (1 hour).


=== Instructions ===
* Run copious amounts of water through the rocks and plants to clean out all of the nutrients and debris that have formed over time (1 hour).
This is how to maintain. The step by step how to template {{Tl|How to}} is most likely best for this part.  
* If necessary replace any rocks, buckets, or pipes that need to be replaced due to damage or malfunctions (1 hour).


{{How to
== Troubleshooting ==
|title=How to Do Something
|File:Bpack bike trailer - demo 1.jpg |Backpack frame bike trailer |1 |Do something.
|File:Aleiha dish.jpg |Aleiha's parabolic solar cooker |2 |Do something really complicated but made simple, etc.
}}


== Troubleshooting ==
This is only how to troubleshoot basic operation.
This is only how to troubleshoot basic operation.
{| class="wikitable"
{| class="wikitable"
|-
! Problem
! Problem
! Suggestion
! Suggestion
|-
|-
| Water is not flowing freely through the system
| Water is not flowing freely through the system
| Check for clogs and debris buildup in the output pipes of tub 1 and tub 2.  
| Check for clogs and debris buildup in the output pipes of tub 1 and tub 2.
|-
|-
| There is a clog in the piping
| There is a clog in the piping
Line 183: Line 277:
| The system has objectionable odors
| The system has objectionable odors
| Run enough water through the system to ensure the system's water is not still
| Run enough water through the system to ensure the system's water is not still
|}


|}
== Discussion and next steps ==


==Discussion and next steps==
{{copyedit| use this section as discussion and next steps after testing that improve the system. Include thoughts for the overall system}}
* Connect the grey water system to the drain of the sink inside the house.
* Connect the grey water system to the drain of the sink inside the house.
* Attach a garden hose to the overflow water outlet of tub 2 so plants can be watered with the greywater in the system.
* Attach a garden hose to the overflow water outlet of tub 2 so plants can be watered with the greywater in the system.
* Allow the roots of the plants in grey filtration system to grow to better absorb nutrients in the greywater
* Allow the roots of the plants in grey filtration system to grow to better absorb nutrients in the greywater
* Use the system to inspire spectators in ways to conserve water and live sustainably
* Use the system to inspire spectators in ways to conserve water and live sustainably
* The system will not be connected to the sink until February 2017
== Poster ==
[[File:Greywater Filtration poster.jpg]]
== Meme ==
[[File:Greywatermeme.jpg|587x587px]]
{{Page data
| part-of = Engr205 Introduction to Design, Sanctuary Arcata
| keywords = greywater, greywater storage and filtration, greywater system, toilets, sanctuary, pipe
| sdg = SDG06 Clean water and sanitation, SDG11 Sustainable cities and communities, SDG12 Responsible consumption and production
| published = 2016
| organizations = Cal Poly Humboldt
| license = CC-BY-SA-3.0
| language = en
}}


==References==
[[Category:Greywater]]
No Author, Watershed Protection Plan Development Guidebook. (n.d.) Appendix B Description of  Commonly Considered Water Quality Constituents. Retrieved from https://epd.georgia.gov/sites/epd.georgia.gov/files/related_files/site_page/devwtrplan_b.pdf
[[Category:Toilets]]
Authors, Roslynn Brain, Jeremy Lynch and Kelly Kopp. (2015). Defining Terms: Greywater, Blackwater and Clearwater. Retrieved from http://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=1001&context=extension_curnat
CCAT greywater marsh (2008), Last modified: September 6, 2011. Retrieved from http://www.appropedia.org/CCAT_greywater_marsh_(2008)
Samoa Hostel grey water island, Last modified: March 23, 2013. Retrieved from http://www.appropedia.org/Samoa_Hostel_greywater_island
Grey water Ecuador La lagrima purificadora, Last Modified: January 11, 2012. Retrieved From http://www.appropedia.org/Greywater_Ecuador_La_lagrima_purificadora
AEF greywater, Last Modified: September 18, 2015. Retrieved from http://www.appropedia.org/AEF_greywater
Arnold, J. (2016, September 23). Personal Interview. 
Broome, Jencks, Jurosek, Kehoe, Kraai, Ortiz, Rhodes, Allen, Knott, Day, Panelli, Weintraub. 2012. San Francisco graywater design manual or outdoor irrigation.  Retrieved from https://sfwater.org/modules/showdocument.aspx?documentid=55
City of Arcata Environmental services, retrieved from
http://www.cityofarcata.org/335/Fats-Oils-Grease
Tricia Edgar 2013, Phytoremediation: Marsh Plants that Clean Grey Water, retrieved from http://www.decodedscience.org/phytoremediation-grey-water-environment/23798
Emergency Regulations Filed with the Secretary of State on August 4, 2009 2007 CPC (Title 24, Part 5, Chapter 16A, Part I) – Non-potable Water Reuse Systems retrieved from https://hcd.ca.gov
Certificate of Compliance with Final Express Terms Filed with the Secretary of State on January 27, 2010 (2007 CPC, Title 24, Part 5, Chapter 16A, Part I – Non-potable Water Reuse Systems retrieved from https://hcd.ca.gov
Allen, Laura and Erskine, C.W. (1999).”Greywater Action.” <http:www.greywateraction.org>(Sep. 25, 2016)
Pinderhughes, Raquel. (1969). “Ecology Center.” <http:www.ecologycenter.org> (Sep. 25, 2016)
Ludwig, Art. (1989). “Oasis Design.” <http:www.oasisdesign.net> (Sep. 25, 2016)
California Plumbing Code. (2013) “alternative water sources for non-portable applications,” California Building Standard Commission, California, Chapter 16
No Author, (2010).” Northeast Region Certified Crop Adviser (NRCCA) Study Resources.”<https://nrcca.cals.cornell.edu/soil/CA3/CA0324.php>(Sept. 27, 2016)

Latest revision as of 14:06, 28 February 2024

Arcata sanctuary picture 1.jpg
FA info icon.svg Angle down icon.svg Project data
Authors Juliette Angela Cortez
Christopher Bautista
Baylee
Jenny Turk
Status Deployed
Completed 2016
Cost USD 113.39
Instance of Greywater system
OKH Manifest Download
Team Four Squared: Top: Baylee Carson, Middle: Jennifer Turk, Juliette Cortez, Bottom: Christopher Bautista

The purpose of this project was to build a greywater filtration system to reduce fresh water use and inspire other to create reusable water resources. Our client hosts large parties and events regularly meaning many people from the community spend time at the site. Our team made the system look as inspirational as possible so that when community members see it, it may inspire them to create one of their own. A "How To" Manual can be found below to allow others to recreate our system at their own homes. This system specifically filters water from two kitchen sinks, however, it can be modified to filter washing machine runoff or showers. Below is a description of the final project team four squared built at the Sanctuary.

Background[edit | edit source]

Team Four Squared is a group of Cal Poly Humboldt students who are a part of the Engineering 215 - Introduction to Design class of Fall 2016. Our client, The Sanctuary, located on J street in Arcata, CA is a community building dedicated to offering a creative space where members of the community can grow, create and build not just physical things but experiences and memories as well. This greywater system will serve not only as a water filtration station but also as inspiration for others to build their own greywater filtration systems.

Problem statement and criteria[edit | edit source]

The objective of this project was to reduce the amount of city water that the Sanctuary uses outdoors. Our system filters the kitchen sink water from the neighboring house allowing the Sanctuary to use recycled water for outdoor use. The recycled water that will be coming from our system will be primarily used for irrigating the sanctuary's garden.

Criteria Importance Constraints
Aesthetics 10 Must look professional for adults who come to learn about the system.
Reuse of materials 9 90% of the materials used must be reused or upcycled.
Cost 8 No more than $400 may be spent
Maintenance 7 The system needs to be able to be maintained by 2 adults.
Ease of use 6 The system needs to be able to be used by any one adult.
Safety 5 Must be safe for all persons including children. Also must be safe for the ducks that live on the property.

Description of final project[edit | edit source]

Fig 1: Overview of CAD
Fig 2: Overview of Greywater system

This grey water system was built for The Sanctuary in Arcata by team FourSqaured. The purpose of this system is to save water by recycling it through biological filtration. Before our newly built system, The Sanctuary used unfiltered sink water to water their garden. This new system consists of a grease trap, two repurposed bathtubs and a hose attachment so that The Sanctuary can use filtered water to irrigate their garden. The objective of this project was to use the least amount of embedded energy when creating our project by using recycled materials.

Grease Trap: For this grease trap our team used repurposed plastic buckets that are placed side by side and connected by a 5" long pipe at the bottom. These buckets are side by side because the "wall" in between the buckets acts as a trap for grease. Water is coming from the sink, meaning there is a large amount of grease in the water. In the first bucket, where water enters from the house, a screen 5" in depth lies on the top of the bucket. Inside this screen are a few layers of straw and other grease absorbing plants/material. The point of this first bucket is to trap the grease on the top of the water where the plants/material can absorb the grease. Less greasy water then travels through the 5" long pipe into the second bucket. Once enough grey water fills the second bucket it will flow into the first tub for further filtration.

Tub One: Tub one contains ten five gallon buckets full of large gravel, four vertical baffles placed on opposite sides (see Fig 1), five different species of marsh plants were used for nutrient uptake and a planter bucket for ease of maintenance. The planter bucket provides ease of maintenance because a screen 5" deep in the bucket lies beneath the water outlet allowing for access of the pipe and screen. Water then percolates through holes in the planter bucket where further filtration occurs through gravel, baffles, and plants. The baffles we used are cut out pieces of repurposed plastic bins. Baffles help to redirect and slow the movement of water. Plants are a huge component of this system, plants from the marsh were used since they have higher absorption rates of nutrients. The plants used were the following: Mugwort, Fuchsia, Succulents, Bulrush and Cattails. Water flows from the planter bucket to the overflow hole at the end of the tub. The overflow hole connects to a pipe that moves the water to tub 2.

Tub Two: The water entering from tub one then drains into tub two where a similar set up as tub one is in place; however, smaller gravel and large rooted plants(e.g. blue iris) were used. Once the water travels to the opposite end of the tub, water flows out of the tub and through a connection where water can drain, or a hose can be attached.

Cost Table[edit | edit source]

Total Costs of Grey water System:

Quantity Material Source Cost ($) Total ($)
2 bathtubs 25.00 50.00
1 2.5" Plug 5.43 5.43
1 2" plug 10.99 10.99
1 2" hole to elbow adapter 8.99 8.99
1 2" hole to hose adapter 13.99 13.99
6 1 foot long 2" wide pipe 0.00 0.00
20 Plants 0.00 0.00
6 baffles 0.00 0.00
2 elbow pipes 6.99 13.98
10 5 gal pea gravel 0.50 5.00
10 5 gal larger gravel 0.50 5.00
2 screens 0.00 0.00
Total Cost $113.39

Testing Results[edit | edit source]

The Sanctuary will not be using this system during the winter. So in February we will have more data. This video describes how the water would flow if the system was working properly.

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How to build[edit | edit source]

This section gives a step by step explanation on how to build this system, explaining piping and materials used.

1
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PIPING INTO GREASE TRAP: First, cut a hole 2" below the rim of the bucket. It should match the size of the pipe coming from the house(greywater input). Two buckets that are side by side are used to divide the grease. In the first bucket, grease floats to the top while less greasy water flows to the next bucket.

2
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FIRST GREASE TRAP BUCKET: Inside this bucket is a screen 3"-4" deep. Grease is trapped at the top of the screen which contains straw and other grease absorbing plants. Less greasy water remains at the bottom of the bucket and passes into the second bucket through a pipe 1" above the bottom of the bucket.

3
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PIPING & SECOND GREASE TRAP: A hole should be cut 1" above the bottom of the second bucket. A 5" long pipe connects the first and second buckets together. Less greasy water then flows into the second grease trap bucket. Another hole should be cut 1" below the rim. Once water rises to the top of the second bucket, it will flow into tub 1.

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CONNECTING PIPE & PLANTER BUCKET IN TUB 1: The pipe from the second grease traps connect to an ABS elbow pipe that allows the pipe to go towards the bottom of the tub. This pipe resides 5" deep inside the planter bucket. Right underneath the output of the pipe is a screen 5" in depth so that they fit snug in the planter bucket. The planter bucket contains a series of small holes on the sides so water can seep out.

5
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TUB 1: Contains a planter bucket. Around this planter bucket is large gravel that fills the tub past its overflow hole. Vertical baffles are to be placed on opposite sides, about 4" apart from one another. Baffles should be touching the bottom and sides of the tub. Plants can be arranged in any way but should be 5" deep in the tub.

6
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PIPE REDIRECTING WATER TO TUB 2: Inside the overflow hole is a "rubber layer" that goes around a 2" diameter ABS pipe. An ABS elbow then connects to a 2" diameter pipe that leads to tub 2.

7
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PLANTER BUCKET IN TUB 2: The pipe connects to an ABS elbow that allows the pipe to go towards the bottom of the tub. This planter bucket is similar to the tub ones planter bucket.

8
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TUB 2: Contains a planter bucket and small gravel that fills the tub past its overflow hole. Horizontal baffles are placed 4" apart from each other and large rooted plants are inserted 6" under the gravel.

9
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CONNECTING OVERFLOW HOLE TO HOSE: Inside the overflow hole is "rubber layer" that goes around a 5" long pipe. this pipe connects to a male adapter with a brass female hose and male pipe. Then the hose attaches and is ready for irrigation.

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Maintenance[edit | edit source]

It is important to properly maintain this system otherwise it may not work properly. The majority of time maintaining this system is only done every few years, with small amounts of cleaning on an as needed basis.

Schedule[edit | edit source]

This maintenance schedule will provide steps that can be taken on a daily,weekly,monthly,and yearly basis to ensure proper functionality of the system.

Daily
  • Check for clogs or build up in the input tank, empty and wash out the filter as needed (3 min).
  • Check for clogs or leaks in the outputs of tub 1 and 2, empty and wash out as needed (2-10 Min).
Weekly
  • Take out any plants that may have died as needed(2 min).
  • Clean out any build up that may have formed in the input buckets of tub 1 and tub 2 (5 min).
  • Replace the hay filter in the input tanks and remove excess grease (5 min).
Monthly
  • Check to make sure there isn't any build up of debris in the pipes of inputs (5 Min).
Yearly
  • Replace any buckets or pipes that may have been broken or cracked during the winter months
Every 3 years
  • Run copious amounts of water through the rocks and plants to clean out all of the nutrients and debris that have formed over time (1 hour).
  • If necessary replace any rocks, buckets, or pipes that need to be replaced due to damage or malfunctions (1 hour).

Troubleshooting[edit | edit source]

This is only how to troubleshoot basic operation.

Problem Suggestion
Water is not flowing freely through the system Check for clogs and debris buildup in the output pipes of tub 1 and tub 2.
There is a clog in the piping After knowing where a blockage is present. You have to disassemble the pipes connections using a flat head screw driver to be able to remove the blockage.
The system has objectionable odors Run enough water through the system to ensure the system's water is not still

Discussion and next steps[edit | edit source]

  • Connect the grey water system to the drain of the sink inside the house.
  • Attach a garden hose to the overflow water outlet of tub 2 so plants can be watered with the greywater in the system.
  • Allow the roots of the plants in grey filtration system to grow to better absorb nutrients in the greywater
  • Use the system to inspire spectators in ways to conserve water and live sustainably
  • The system will not be connected to the sink until February 2017

Poster[edit | edit source]

Greywater Filtration poster.jpg

Meme[edit | edit source]

Greywatermeme.jpg

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