Difference between revisions of "Enpr-256"

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=== ENPR 256 - Sustainable Systems, Energy ===
+
=Sustainable Systems, Summer-Fall 2006=
 +
 
 +
==Labs==
 +
*[[hotwater-audit|Miller Farm Hot Water Energy Audit]]
 +
*[[wattsup-vs-wattnode|Comparison of WattsUp? and WattNode Power Usage Monitoring Equipment]]
 +
*[[hotwater-wattnode|Monitoring the Energy Usage of the Hot Water Heater at Miller Farm]]
 +
*[[salvage-experiment|Salvage and Testing of a Potential Solar Hot Water Panel]]
 +
*[[campus-pv-install|Assisting with the Installation of a 2KW PV System on Dennis Hall Roof]]
 +
*[[solar-pathfinder-lab|Solar Pathfinder Lab]]
 +
*[[heat_exchanger_modeling|Scaling a Copper Pipe Heat Exchanger]]
 +
 
 +
==Solar Hot Water Project==
 +
*[http://wiki.cs.earlham.edu/images/8/82/ShwhSchematic.pdf System Overview]
 +
*[[heat_bank_design|Heat Bank Design]]
 +
 
 +
==Photo Gallery==
 +
[[http://cs.earlham.edu/~green-science/album/ Album]]
 +
 
 +
==Reference Tools==
 +
*[http://cs.earlham.edu/~copelco/wiki/index.php/Degree_Days Degree Days Explained]
 +
*[http://www.ibiblio.org/obp/electricCircuits/DC/index.html Lessions in Electric Circuits, Vol I]
 +
*[http://hes.lbl.gov/ The Home Energy Saver] (on-line energy audit tool)
 +
*Electric Hot Water Heater [http://cs.earlham.edu/~hip/sustainableSystems/hotWaterHeater/ Efficiency Calculator]
 +
*Optimal [http://www.homepower.com/files/pvangles.pdf Solar Panel Angle] by time of year and latitude.
 +
 
 +
==Future Lab Ideas==
 +
(place unused info like Pathfinder and Line-loss data)
 +
 
 +
==Future Project Ideas==
 +
(suggestions for the next class)
 +
 
 +
=ENPR 256 - Sustainable Systems, Energy=
  
 
==Reading and Exercises==
 
==Reading and Exercises==
 +
* Week of July 11th
 +
** Read about DC electricity and related concepts, these are covered in the first 5 chapters of http://www.ibiblio.org/obp/electricCircuits/DC/index.html. 
 +
** Complete the hot water lab.
 +
 +
* Week of July 3rd
 +
** Estimate the dollar cost of hot water for Miller farm by month over the past 5 years.  Write-up your model describing the data sources, assumptions, formulas, etc. using a wiki page here: [[hot-h2o-colin|Colin]], [[hot-h2o-ked|Kate-Ehren-Dan]].  Note:  See finished lab below.
 +
** If you are taking this course for upper-level credit (Ehren, Colin), talk to the instructor about your individual project.
 +
 +
* Week of June 26th
 +
** Read the manual for the WattsUp meter.  Set it up with a small load (light, toaster, rocket launcher, etc.) and try the different modes.  Set the cost of electricity to the amount the College is paying (from the RP&L bills). 
 +
** Document what you have learned so far about solar hot water and grid tied systems using the links below.  Tank sizes and prices, conversations with agencies, etc.
 +
** A little basement cleaning and lighting would go a long way towards making the hot water heater monitoring gear installation on Saturday a lot easier. 
 +
 
* Week of June 19th
 
* Week of June 19th
 
** Pages 76-122 in Reader's Digest <i>Back to Basics</i>
 
** Pages 76-122 in Reader's Digest <i>Back to Basics</i>
 
** Read Colin's explanation of degree days (link below in Reference Material).  Talk about it enough to make sure that you understand the details.
 
** Read Colin's explanation of degree days (link below in Reference Material).  Talk about it enough to make sure that you understand the details.
 
** Work through (individually) the online energy audit at http://hes.lbl.gov using Miller Farm as the house.  Make a note of your session number, you can return and re-calculate it.   
 
** Work through (individually) the online energy audit at http://hes.lbl.gov using Miller Farm as the house.  Make a note of your session number, you can return and re-calculate it.   
** Spend an hour or more browsing the Real Goods <i>Solar Living Source Book</i>.  I want you to get a good sense of the range of gear available in this space and the complexity and costs associated with it.
+
** Spend an hour or more browsing the Real Goods <i>Solar Living Source Book</i>.  I want you to get a good sense of the range of gear available in this space and the complexity and costs associated with it.
* Week of June 26th
 
** Read the manual for the WattsUp meter.  Set it up with a small load (light, toaster, rocket launcher, etc.) and try the different modes.  Set the cost of electricity to the amount the College is paying (from the RP&L bills). 
 
** Document what you have learned so far about solar hot water and grid tied systems using the links below.  Tank sizes and prices, conversations with agencies, etc.
 
** A little basement cleaning and lighting would go a long way towards making the hot water heater monitoring gear installation on Saturday a lot easier. 
 
  
 
==Labs==
 
==Labs==
 +
* Week of July 24th (Note that Ehren added this not Charlie)
 +
**Test the potential for using Charlie's spare solar hot water unit, and [[solar-hot-test|record]] the fun.
 +
 +
* Week of July 11th
 +
** Figure-out and setup an open source based solution to monitoring the WattsUp? Pro via the serial interface.  Document your work, with prose and pictures, [[wattsup-serial|here]].
 +
 +
* Week of TBD
 +
** Setup a WattNode TTL on a 110VAC line and interface it to a computer's serial port.  Write a simple program to read the value off the serial port, convert it, and write it to a log.  Compare the electrical usage of an idling computer for 12 hours using the WattNode/software combination and the WattsUp units.  Document your work, with prose and pictures, [[wattnode-ttl|here]].
 +
 
* Week of June 26th
 
* Week of June 26th
 
** Setup a WattNode pulse on a 110VAC line with the LCD display.  Compare the electrical usage of an idling computer for 12 hours using the WattNode and the WattsUp units.  Connect them in serial so that each "run" includes both measurements.  The WattsUp can be set to display in the same units as the WattNode's LCD.  Document your work, with prose and pictures, [[wattnode-lcd|here]].
 
** Setup a WattNode pulse on a 110VAC line with the LCD display.  Compare the electrical usage of an idling computer for 12 hours using the WattNode and the WattsUp units.  Connect them in serial so that each "run" includes both measurements.  The WattsUp can be set to display in the same units as the WattNode's LCD.  Document your work, with prose and pictures, [[wattnode-lcd|here]].
 
* Week of July 3rd
 
** Setup a WattNode TTL on a 110VAC line and interface it to a computer's serial port.  Write a simple program to read the value off the serial port, convert it, and write it to a log.  Compare the electrical usage of an idling computer for 12 hours using the WattNode/software combination and the WattsUp units.  Document your work, with prose and pictures, [[wattnode-ttl|here]].
 
  
 
==Documents in Progress==
 
==Documents in Progress==
 +
* [[path-finder|Solar Path-finder Info]]
 
* [[solar-h2o|Solar H2O system]]
 
* [[solar-h2o|Solar H2O system]]
* [[grid-tie|Grid tie system]]  
+
* [[grid-tie|Grid-tied system]]  
* Report of what we have done (see list below for a start)
+
* [[documentation|Pictures of what we have done]]
 
* [[journals|Student Journals]]
 
* [[journals|Student Journals]]
 
* [[energy-calendar|Annual Energy Calendar]]
 
* [[energy-calendar|Annual Energy Calendar]]
 +
 +
== Documents==
 +
*[[hot h2o|Hot Water Audit]]
  
 
==Reference Material==
 
==Reference Material==
 
* Degree days explained - http://cs.earlham.edu/~copelco/wiki/index.php/Degree_Days
 
* Degree days explained - http://cs.earlham.edu/~copelco/wiki/index.php/Degree_Days
* Degree day interface
+
* Colin's database interfaces (degree days, H20 heater, graphing tool) - http://cs.earlham.edu/~hip/sustainableSystems/
 
* a nifty website about energy from the University of Missouri-Rolla -http://www.ece.umr.edu/links/power/
 
* a nifty website about energy from the University of Missouri-Rolla -http://www.ece.umr.edu/links/power/
*Doug Ahlfeld contacted Ehren and offered his help on our solar projectsHe has been working with solar hot water and PV in Indiana for a number of year and would be willing to come out to the farm to chat with the group. Phone: 260-437-1478. He recommended http://www.BTFSolar.com for the hot water system supplies.
+
 
 +
*While surfing the DOE website I found a link to renewable energy maps by regionThought they might come in handy: http://www.eia.doe.gov/emeu/reps/rpmap/rp_contents.html
  
 
==To Do==
 
==To Do==
 
Near Term
 
Near Term
* Get LP gas bills from maintenance
+
* Enter LP gas bills into the database (Colin)
* Track down the LP gas bills and put them in the database, on-going feed?
 
 
* Setup monitoring gear, plumb database interface
 
* Setup monitoring gear, plumb database interface
* When was hot water heater installed
 
* Cost and availability of bladder for fuel tank
 
 
* Continue research into cost of new tanks (Ehren)
 
* Continue research into cost of new tanks (Ehren)
* Measure bulkhead door, can tanks fit
+
* Cleanup our weather data (Colin)
* Calculate line loss for barn to house - N VDC (without inverter) and 110 VAC (with inverter) (Dan)
+
* Build a local repository of Farmland's data or another nearby location, develop an interface (Colin)
* Cleanup our weather data
 
* Build a local repository of Farmland's data or another nearby location, develop an interface
 
 
* Develop year-to-year comparison interface
 
* Develop year-to-year comparison interface
 
* Setup an on-going feed for the RP&L bills (Colin, is this possible?)
 
* Setup an on-going feed for the RP&L bills (Colin, is this possible?)
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* Insulate bulkhead doors to basement
 
* Insulate bulkhead doors to basement
 
* Insulate pipes in basement
 
* Insulate pipes in basement
* Create annual energy calendar
+
* Create annual energy calendar (Kate et al)
  
 
Long Term
 
Long Term
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==== Completed ====
 
==== Completed ====
 +
* Measured bulkhead door, tanks can fit (Kate)
 +
* Wrote up results of 12 hour WattNode/WattsUp? test run and posted on wiki with pictures. (Ehren, Kate, Dan, and Colin)
 +
* Calculated line loss for barn to house - N VDC (without inverter) and 110 VAC (with inverter) (Dan) Write-up?
 +
* Cleaned basement at Miller in preparation for installation of the WattNode monitoring gear (All)
 +
* Collected one year of LP gas bills (Kate)
 +
* When was hot water heater installed (Kate)
 +
* Conducted 12 hour WattNode/WattsUp? correlation test run (Ehren & Colin)
 
* Contact IMPA about grid-tie system (Ehren)
 
* Contact IMPA about grid-tie system (Ehren)
 
* Collected new-water-tank prices from TSC (Ehren)
 
* Collected new-water-tank prices from TSC (Ehren)

Latest revision as of 13:58, 18 April 2007

Sustainable Systems, Summer-Fall 2006

Labs

Solar Hot Water Project

Photo Gallery

[Album]

Reference Tools

Future Lab Ideas

(place unused info like Pathfinder and Line-loss data)

Future Project Ideas

(suggestions for the next class)

ENPR 256 - Sustainable Systems, Energy

Reading and Exercises

  • Week of July 3rd
    • Estimate the dollar cost of hot water for Miller farm by month over the past 5 years. Write-up your model describing the data sources, assumptions, formulas, etc. using a wiki page here: Colin, Kate-Ehren-Dan. Note: See finished lab below.
    • If you are taking this course for upper-level credit (Ehren, Colin), talk to the instructor about your individual project.
  • Week of June 26th
    • Read the manual for the WattsUp meter. Set it up with a small load (light, toaster, rocket launcher, etc.) and try the different modes. Set the cost of electricity to the amount the College is paying (from the RP&L bills).
    • Document what you have learned so far about solar hot water and grid tied systems using the links below. Tank sizes and prices, conversations with agencies, etc.
    • A little basement cleaning and lighting would go a long way towards making the hot water heater monitoring gear installation on Saturday a lot easier.
  • Week of June 19th
    • Pages 76-122 in Reader's Digest Back to Basics
    • Read Colin's explanation of degree days (link below in Reference Material). Talk about it enough to make sure that you understand the details.
    • Work through (individually) the online energy audit at http://hes.lbl.gov using Miller Farm as the house. Make a note of your session number, you can return and re-calculate it.
    • Spend an hour or more browsing the Real Goods Solar Living Source Book. I want you to get a good sense of the range of gear available in this space and the complexity and costs associated with it.

Labs

  • Week of July 24th (Note that Ehren added this not Charlie)
    • Test the potential for using Charlie's spare solar hot water unit, and record the fun.
  • Week of July 11th
    • Figure-out and setup an open source based solution to monitoring the WattsUp? Pro via the serial interface. Document your work, with prose and pictures, here.
  • Week of TBD
    • Setup a WattNode TTL on a 110VAC line and interface it to a computer's serial port. Write a simple program to read the value off the serial port, convert it, and write it to a log. Compare the electrical usage of an idling computer for 12 hours using the WattNode/software combination and the WattsUp units. Document your work, with prose and pictures, here.
  • Week of June 26th
    • Setup a WattNode pulse on a 110VAC line with the LCD display. Compare the electrical usage of an idling computer for 12 hours using the WattNode and the WattsUp units. Connect them in serial so that each "run" includes both measurements. The WattsUp can be set to display in the same units as the WattNode's LCD. Document your work, with prose and pictures, here.

Documents in Progress

Documents

Reference Material

To Do

Near Term

  • Enter LP gas bills into the database (Colin)
  • Setup monitoring gear, plumb database interface
  • Continue research into cost of new tanks (Ehren)
  • Cleanup our weather data (Colin)
  • Build a local repository of Farmland's data or another nearby location, develop an interface (Colin)
  • Develop year-to-year comparison interface
  • Setup an on-going feed for the RP&L bills (Colin, is this possible?)
  • Track down the most recent wind survey data for this area
  • Track down the most recent solar incidence data for this area

Medium Term

  • Insulate bulkhead doors to basement
  • Insulate pipes in basement
  • Create annual energy calendar (Kate et al)

Long Term

  • Infrared scan of leaking heat for first cold day

Completed

  • Measured bulkhead door, tanks can fit (Kate)
  • Wrote up results of 12 hour WattNode/WattsUp? test run and posted on wiki with pictures. (Ehren, Kate, Dan, and Colin)
  • Calculated line loss for barn to house - N VDC (without inverter) and 110 VAC (with inverter) (Dan) Write-up?
  • Cleaned basement at Miller in preparation for installation of the WattNode monitoring gear (All)
  • Collected one year of LP gas bills (Kate)
  • When was hot water heater installed (Kate)
  • Conducted 12 hour WattNode/WattsUp? correlation test run (Ehren & Colin)
  • Contact IMPA about grid-tie system (Ehren)
  • Collected new-water-tank prices from TSC (Ehren)
  • Setup Wiki usernames (Charlie)
  • Rented solar pathfinder (Charlie)
  • Defrosted basement freezer (Ehren)
  • Cleaned and shut off 1 refrigerator (Ehren and Colin)
  • Performed perliminary energy audit (still have to get LP gas)
  • Created a table and populate the occupancy data for the Farm (Colin)