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<center>''The CCAT Solar Charging Station is a work in progress by a group of Environmental Science students from Humboldt State University. The charging station will be a resource for students and faculty to use off-grid solar power to charge their cell phones and laptops. The project will provide this service to the campus and will also be another educational demonstration at the Campus Center of Appropriate Technology. The design will show each component clearly in the way it is set up and educational signs will explain how everything is working. Our design will also include a guest book that users can sign, so that we can gauge how popular the charging station will become. ''</center> | <center>''The CCAT Solar Charging Station is a work in progress by a group of Environmental Science students from Humboldt State University. The charging station will be a resource for students and faculty to use off-grid solar power to charge their cell phones and laptops. The project will provide this service to the campus and will also be another educational demonstration at the Campus Center of Appropriate Technology. The design will show each component clearly in the way it is set up and educational signs will explain how everything is working. Our design will also include a guest book that users can sign, so that we can gauge how popular the charging station will become. ''</center> | ||
The Campus Center of Appropriate Technology is a demonstration house located on the Humboldt State University campus that is a resource for students and faculty. CCAT has many different technologies on display such as: solar panels, rainwater catchment, organic gardens, a greywater marsh, and an experimental composting toilet, among other things. These projects are on display as educational tools to the community and information is provided through CCAT | The Campus Center of Appropriate Technology is a demonstration house located on the Humboldt State University campus, Arcata, California that is a resource for students and faculty. CCAT has many different technologies on display such as: solar panels, rainwater catchment, organic gardens, a greywater marsh, and an experimental composting toilet, among other things. These projects are on display as educational tools to the community and information is provided through CCAT/Appropedia on how to recreate these technologies on your own. The Solar Charging Station at CCAT will align with the mission of CCAT to provide education and resources to the community, by clearly expressing how off-grid solar works, while being functional for cell phone/laptop charging. | ||
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* High quality 2 x 4s | * High quality 2 x 4s | ||
* CCAT tools/hardware | * CCAT tools/hardware | ||
* Materials for making a guest book | |||
* Some materials for charge controller housing | |||
What we need: | What we need: | ||
* A sealed battery | * A sealed battery | ||
* Charge controller | * Charge controller | ||
* Waytek USB | * Waytek USB plug for load | ||
* USB split plug for multiple chargers | * USB split plug for multiple chargers | ||
* | * Copper wire #8 bare, 20 feet | ||
* Ground rod, 8 feet | |||
* Acorn nut | |||
* Panel wire, 8 feet | |||
* MC 4 branch 10 gauge PV wire | |||
* MC 4 wire 60 inches cut in half | |||
* Conduit | |||
* Battery box | |||
* Lock for battery box | |||
* 8 gauge wire from battery to charge controller | |||
* Fuse block, 10 - 15 Amps near battery | |||
== Project goals == | == Project goals == | ||
By the end of the project we want to have accomplished the following goals: | |||
# Have a functioning solar charging station at CCAT | |||
# | # Provide an effective demonstration of off-grid solar | ||
# and | # Complete a step by step guide to construction here on Appropedia for those who want to build it themselves | ||
# | # Complete a project report with a cost, buyback time, and energy return on investment analysis | ||
# Create a prototype and precedent for future such stations on the HSU campus | |||
== Design == | == Design == | ||
'''Energy calculations:''' | |||
The project location will be the roof of the CCAT demonstration wall kiosk. We measured solar insolation at this location with a Solar Pathfinder and assessed other sites at CCAT as well. We chose the kiosk for having the most solar insolation on an already constructed, available rooftop, and because it is in a centralized location at CCAT. | |||
Full sun hours at location: 2.05 hrs/day | |||
Panel power: 100 Watts | |||
Balance of system efficiency assumed at: 0.8 | |||
Number of panels: 2 | |||
Edaily = full sun hours * panel power * efficiency | |||
Edaily = 2.05 hrs/day * 100 Watts * 0.8 | |||
= 164 Wh/day / 1000 | |||
= .164 kWh/day * 2 panels | |||
'''= .328 kWh/day''' | |||
.328 kWh/day * 365 days/year = 119.72 kWh/year | |||
'''Construction:''' | |||
The panels will be positioned vertically and staggered on the kiosk rooftop, facing south, at a 30 degree angle for maximum sun exposure. | |||
Phase 1, Building the Panel Racks and Mounting the Panels: | |||
== Costs == | == Costs == | ||
We have a $400 budget from CCAT for this project. | |||
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| row 2, cell 3 | | row 2, cell 3 | ||
|} | |} | ||
''' | |||
Buyback:''' | |||
The system will save CCAT around $20 each year in electricity costs and will therefore buy itself back in about 21 years. ($400/$19.12/year = 20.88 years). | |||
== Discussion == | == Discussion == |
Revision as of 19:57, 28 November 2014
The Campus Center of Appropriate Technology is a demonstration house located on the Humboldt State University campus, Arcata, California that is a resource for students and faculty. CCAT has many different technologies on display such as: solar panels, rainwater catchment, organic gardens, a greywater marsh, and an experimental composting toilet, among other things. These projects are on display as educational tools to the community and information is provided through CCAT/Appropedia on how to recreate these technologies on your own. The Solar Charging Station at CCAT will align with the mission of CCAT to provide education and resources to the community, by clearly expressing how off-grid solar works, while being functional for cell phone/laptop charging.
Understanding the market
What we have:
- 10 functioning solar panels donated to CCAT
- A kiosk in the center of CCAT as a space to set up our system
- Scrap metal and wood
- High quality 2 x 4s
- CCAT tools/hardware
- Materials for making a guest book
- Some materials for charge controller housing
What we need:
- A sealed battery
- Charge controller
- Waytek USB plug for load
- USB split plug for multiple chargers
- Copper wire #8 bare, 20 feet
- Ground rod, 8 feet
- Acorn nut
- Panel wire, 8 feet
- MC 4 branch 10 gauge PV wire
- MC 4 wire 60 inches cut in half
- Conduit
- Battery box
- Lock for battery box
- 8 gauge wire from battery to charge controller
- Fuse block, 10 - 15 Amps near battery
Project goals
By the end of the project we want to have accomplished the following goals:
- Have a functioning solar charging station at CCAT
- Provide an effective demonstration of off-grid solar
- Complete a step by step guide to construction here on Appropedia for those who want to build it themselves
- Complete a project report with a cost, buyback time, and energy return on investment analysis
- Create a prototype and precedent for future such stations on the HSU campus
Design
Energy calculations:
The project location will be the roof of the CCAT demonstration wall kiosk. We measured solar insolation at this location with a Solar Pathfinder and assessed other sites at CCAT as well. We chose the kiosk for having the most solar insolation on an already constructed, available rooftop, and because it is in a centralized location at CCAT.
Full sun hours at location: 2.05 hrs/day Panel power: 100 Watts Balance of system efficiency assumed at: 0.8 Number of panels: 2
Edaily = full sun hours * panel power * efficiency Edaily = 2.05 hrs/day * 100 Watts * 0.8 = 164 Wh/day / 1000 = .164 kWh/day * 2 panels = .328 kWh/day
.328 kWh/day * 365 days/year = 119.72 kWh/year
Construction:
The panels will be positioned vertically and staggered on the kiosk rooftop, facing south, at a 30 degree angle for maximum sun exposure.
Phase 1, Building the Panel Racks and Mounting the Panels:
Costs
We have a $400 budget from CCAT for this project.
header 1 | header 2 | header 3 |
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row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |
row 2, cell 1 | row 2, cell 2 | row 2, cell 3 |
Buyback:
The system will save CCAT around $20 each year in electricity costs and will therefore buy itself back in about 21 years. ($400/$19.12/year = 20.88 years).
Discussion
Your discussion.
Next steps
The next steps.
Conclusions
Your conclusions.
References
Contact details
Add your contact information.