RVwiki for vanfolk and others who live in vehicles

User Tools

Site Tools

Trace:
opinion:frater_secessus:how_much_excess_solar_power

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision 		Previous revision
opinion:frater_secessus:how_much_excess_solar_power [2022/12/14 18:07]
frater_secessus [average power harvest for a given time/place] 		opinion:frater_secessus:how_much_excess_solar_power [2023/04/21 15:50] (current)
frater_secessus [Pareto summary]
Line 1: Line 1:
 +DRAFT
 +
 +
 +FIXME
 +
 ====== How much extra solar power do I have? ====== ====== How much extra solar power do I have? ======
  
 Yes, we can use [[electrical:12v:battery_monitor|a battery monitor]] to see how much power is going into the battery bank.  And we can look at the [[electrical:solar:charge_controller|solar charge controller]] to see how much power it is making. Yes, we can use [[electrical:12v:battery_monitor|a battery monitor]] to see how much power is going into the battery bank.  And we can look at the [[electrical:solar:charge_controller|solar charge controller]] to see how much power it is making.
  
-But how can we tell how much untapped power the solar setup leaves on the table because aren't demanding it Put another way:  how much more stuff could we be running off the solar?+But how can we tell **how much untapped power does our solar have in reserve?** Put another way:  how much more stuff could we be running off the solar?
  
  
- +===== TLDR =====
-===== Pareto summary =====+
  
  
Line 19: Line 23:
  
  
-===== empirical testing =====+===== direct testing ===== 
 + 
 +Plug it in and see if the solar can support it [[electrical:solar:offthepanel|without affecting the battery bank]].  Easy peasy.   
 + 
 +The downside is this is a YES/NO answer;  it tells you a specific load will run but does not tell you about how much power is actually available.  If you want to see the Bigger Picture then read on... 
 + 
 +===== prediction =====
  
 +==== looking up daily insolation (FSE) =====
  
-===== observation and prediction =====+Hours of Full Sun Equivalent (FSE) is a convenient way to think of the amount of sunlight reaching the ground over the entire day.  4.5 hours of FSE means 4.5kWh of power reaching the ground per square meter.  
  
 +To predict daily harvest we will use
  
 +  * FSE
 +  * your panel wattage
 +  * and your system's overall efficiency
  
  
-==== overall system efficiency ==== 
  
-You can get a feel for overall system efficiency by  
  
-   - watching your system over time, as described above 
-   - comparing real-time harvest to theoretical harvest 
  
  
 +==== calculating power available (W)  ====
  
-===== average power harvest for a given time/place ===== 
  
-==== theretical power available ====+Real-time harvest is a bit easier since there is no time component.  We are working in Watts (W) rather than Watt-hours (Wh). What we are doing is comparing the strength of sunlight reaching the ground (perpendicular) vs [[electrical:solar:output#zenith_angle|the cosine of the angle at which it actually strikes the ground]], or strikes a flat-mounted panel. 
  
-From [[electrical:solar:output#zenith_angle|the subarticle]] on this topic:+This cosine is [[https://www.esrl.noaa.gov/gmd/grad/solcalc/azel.html|calculable for a given time and place]].  
  
-> Examples: if you have 200w of panels, your mppt controller typically yields 83% after derating, and the calculated cosine is .70 then you might expect ~116w in clear conditions at that time in that location. (200 x .83 x .7 = 116.2)+**Example**: if you have 200w of panels and calculated cosine is .70 then **140w of direct light is landing on your panels** in clear skies
  
 +==== finding and using system efficiency ====
  
-==== system efficiency ====+For [[electrical:solar:output|various reasons]] your solar setup will not be able to harvest all the power landing on the panels. For systems with PWM controllers the percent harvested will be something like 70%.  For MPPT it might be 83%.  These constants will be placeholders you can use until you figure out your specific system's overall efficiency
  
 +You can see our system's overall efficiency at a given time:  //actual harvest / theoretical harvest// The numbers will jump around but over time you will start to see a pattern.  Maybe yours makes 80% or 86% over time.  Use that  number to **predict how your system will behave** in another time/place:  
  
 +    panel wattage x system efficiency x cosine
  
-If observed 94w at that place/time the overall system efficiency would be 94w/116.2w = **80.9%**.  After you make many comparisons like this you will start to see a patter in your system's ability to harvest power.  If it's 81% over time we can start to multiply the solar zenith angle calculations above times 0.81 to predict how much power our particular system could make on average.  
  
 +>> ...if your mppt controller typically yields 83% after derating, and the calculated cosine is .70 then you might expect ~116w in clear conditions at that time in that location. (200 x .83 x .7 = 116.2). 
opinion/frater_secessus/how_much_excess_solar_power.1671041238.txt.gz · Last modified: 2022/12/14 18:07 by frater_secessus

Page Tools

affilliate disclosure | the RVwiki runs on a virtual server from NetCup

Except where otherwise noted, content on this wiki is licensed under the following license: CC Attribution-Noncommercial-Share Alike 4.0 International
CC Attribution-Noncommercial-Share Alike 4.0 International Donate Powered by PHP Valid HTML5 Valid CSS Driven by DokuWiki