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electrical:solar:pvwatts [2023/06/16 13:44]
frater_secessus 		electrical:solar:pvwatts [2024/05/13 12:35] (current)
frater_secessus [PVWatts]
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   - find out how much panel is required to make a certain amount of Watt-hours (Wh) daily; or   - find out how much panel is required to make a certain amount of Watt-hours (Wh) daily; or
   - find out how much power your existing solar setup can make   - find out how much power your existing solar setup can make
- +   
 +**IMPORTANT:**  if you are depending on solar the system wattage **must be sized for location and least-sunny month** in which you will be camping.  For full-timers in the northern hemisphere this is **wherever you will be in December**.  
 ===== how much panel do I need to make X watt-hours? ===== ===== how much panel do I need to make X watt-hours? =====
  
-==== choose a location ====+==== GET STARTED ====
  
  
-First, pick a location using the search bar:+First, [[https://pvwatts.nrel.gov/index.php|pick a location]] using the search bar:
  
 {{https://img.mousetrap.net/misc/pvwatts0.jpg}} {{https://img.mousetrap.net/misc/pvwatts0.jpg}}
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 ==== SYSTEM INFO ==== ==== SYSTEM INFO ====
  
- +Change TILT to 0, and accept the other defaults on this page.  The other settings won't make a difference for what we want (Hours of **F**ull **S**un **E**quivalent (FSE), which will be given on the next page)
-Accept the defaults on this page, as it won't make a difference in this case.  All we want is Hours of **F**ull **S**un **E**quivalent (FSE), which will be given on the next page. +
  
  
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 ===== how much energy can my system harvest? ===== ===== how much energy can my system harvest? =====
  
-==== choose a location ====+==== GET STARTED ====
  
 First, pick a location using the search bar: First, pick a location using the search bar:
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 {{https://img.mousetrap.net/misc/pvwatts0.jpg}} {{https://img.mousetrap.net/misc/pvwatts0.jpg}}
  
-==== system info ====+=== SOLAR RESOURCE DATA === 
 + 
 + 
 +This page shows you the location it selected. Accept the default unless it needs correcting.  
 +==== SYSTEM INFO ====
  
 We need to make a couple changes to the defaults here: We need to make a couple changes to the defaults here:
  
   * your array size in **kW**.  A kilowatt is 1,000w, so a 200w = 0**.**2kW (zero-point-two)((the calculator is set up like this because it is designed to model large residential and commercial installations that are measured in kW))     * your array size in **kW**.  A kilowatt is 1,000w, so a 200w = 0**.**2kW (zero-point-two)((the calculator is set up like this because it is designed to model large residential and commercial installations that are measured in kW))  
-  * accept the default losses for MPPT systems.  PWM systems should use something like 30%+  * accept the default losses for MPPT systems.  PWM systems should use something like 30%((PWM doesn't really have 30% losses in the system;  on average it leaves ~30% unharvested.  The end result is the same, math-wise))
   * if your panels are flat (most are) adjust tilt to zero   * if your panels are flat (most are) adjust tilt to zero
  
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-==== results ====+==== RESULTS ====
  
-The first column is kWh/square meter/**day**, AKA Hours of Full Sun Equivalent (FSE).  +The second column is kWh/square meter/**day**, AKA Hours of Full Sun Equivalent (FSE).  
  
-The second column is kWh harvested per **month**. To find average maximal harvest per day divide this figure by the number of days in that month.  +The third column is kWh harvested per **month**. To find average harvest per day divide this figure by the number of days in that month.  
  
 Example:  In January in this location the system could make 17kWh.  17 divided by 31 days = 0.548kWh/day,  (**548Wh/day**). Example:  In January in this location the system could make 17kWh.  17 divided by 31 days = 0.548kWh/day,  (**548Wh/day**).
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 {{https://img.mousetrap.net/misc/pvwatts2-annotated.jpg}} {{https://img.mousetrap.net/misc/pvwatts2-annotated.jpg}}
  
-Note:  the 2nd column is //rounded to whole numbers// This makes little difference with large residential installs but can distort the result with our small systems.  You can use the FSE number to do the math for your setup directly:+Note:  the 3rd column is //rounded to whole numbers// This makes little difference with large residential installs but can distort the result with our small systems.  You can use the FSE number to do the math for your setup more accurately:
  
   FSE x array wattage x ((100 - system losses) / 100)   FSE x array wattage x ((100 - system losses) / 100)
      
-...which gives a more precise **605Wh/day**.  You may want to plug that formula into a spreadsheet for easy re-use.The system losses will be 14.08 or 30.0 as above, depending on the controller.+...which gives a more precise **605Wh/day**.  You may want to plug that formula into a spreadsheet for easy re-use.  The system losses will be 14.08 or 30.0 as above, depending on the controller.
      
      
  
electrical/solar/pvwatts.1686937478.txt.gz · Last modified: 2023/06/16 13:44 by frater_secessus

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