Difference between revisions of "Load and solar resource comparison"
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− | The design process for an off-grid PV system should use conservative, worst-case values to ensure that the system is capable of meeting the energy needs of users throughout the year. There are many locations that have a significant seasonal variance in [[Weather and solar resource evaluation|solar resource]] due to poor weather or latitude. Many off-grid PV systems will see a significant variance in [[Load evaluation|how loads are used throughout the year]], especially in locations that are only seasonally occupied. These two different factors - load usage vs. solar resource - make it important to determine what month to use in the system design as the worst-case scenario. An analysis of loads and usage could be performed on a monthly basis, but the most drastic shift in usage likely occurs between the major seasons in a given region meaning two | + | <languages /> |
+ | <translate> | ||
+ | <!--T:1--> | ||
+ | The design process for an off-grid PV system should use conservative, worst-case values to ensure that the system is capable of meeting the energy needs of users throughout the year. There are many locations that have a significant seasonal variance in [[Special:MyLanguage/Weather and solar resource evaluation|solar resource]] due to poor weather or latitude. Many off-grid PV systems will see a significant variance in [[Special:MyLanguage/Load evaluation|how loads are used throughout the year]], especially in locations that are only seasonally occupied. These two different factors - load usage vs. solar resource - make it important to determine what month to use in the system design as the worst-case scenario. An analysis of loads and usage could be performed on a monthly basis, but the most drastic shift in usage likely occurs between the major seasons in a given region meaning two times per year. Determining the worst-case month can be done using a simple table and a quick calculation using [[Special:MyLanguage/Weather and solar resource evaluation|monthly insolation data]] and [[Special:MyLanguage/Load evaluation|Average daily Wh estimates]] for the two different time periods October - March and April - September. The two following values used for the design should be chosen from the month with the highest ratio of average daily watt-hours relative to average monthly insolation: | ||
+ | <!--T:2--> | ||
*Design daily insolation | *Design daily insolation | ||
+ | |||
+ | <!--T:3--> | ||
*Design daily watt-hours required | *Design daily watt-hours required | ||
− | + | ====Step 1: Determine monthly ratio of energy demand to solar resource==== <!--T:4--> | |
− | |||
+ | <!--T:5--> | ||
{| class="wikitable" border=1 | {| class="wikitable" border=1 | ||
!Month | !Month | ||
− | ![[Weather and solar resource evaluation#Solar resource (insolation)|Average | + | ![[Special:MyLanguage/Weather and solar resource evaluation#Solar resource (insolation)|Average monthly insolation (kWh/m²)]] |
− | ![[Load evaluation# | + | ![[Special:MyLanguage/Load evaluation#Total average daily energy demand|Total average daily energy demand (Wh)]] |
!Ratio | !Ratio | ||
|- | |- | ||
|January | |January | ||
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|February | |February | ||
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|March | |March | ||
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|April | |April | ||
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|May | |May | ||
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|June | |June | ||
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|July | |July | ||
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|August | |August | ||
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|September | |September | ||
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|October | |October | ||
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|November | |November | ||
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|December | |December | ||
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|} | |} | ||
*'''Month:''' The month of the year. | *'''Month:''' The month of the year. | ||
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− | == | + | <!--T:6--> |
+ | *'''Average monthly insolation:''' Solar resource data obtained for the location from [[Special:MyLanguage/Weather and solar resource evaluation|Weather and solar resource evaluation]]. | ||
+ | |||
+ | <!--T:7--> | ||
+ | *'''[[Special:MyLanguage/Load evaluation#Total average daily energy demand|Total average daily energy demand]]''' for the month from the load evaluation. | ||
+ | |||
+ | <!--T:8--> | ||
+ | *'''Ratio =''' Total average daily energy demand ÷ Average monthly insolation | ||
+ | |||
+ | ====Step 2: Determine design values==== <!--T:9--> | ||
+ | <!--T:10--> | ||
{| class="wikitable" border=1 style="width: 80%;" | {| class="wikitable" border=1 style="width: 80%;" | ||
− | ! style="width: 20%"|Design daily insolation | + | ! style="width: 20%"|Design daily insolation |
− | ! style="text-align:left;"| = Average monthly insolation from month with the highest ratio ÷ 30 | + | ! style="text-align:left;"| = Average monthly insolation (kWh/m²) from month with the highest ratio ÷ 30 |
|} | |} | ||
+ | <!--T:11--> | ||
{| class="wikitable" border=1 style="width: 80%;" | {| class="wikitable" border=1 style="width: 80%;" | ||
! style="width: 20%"|Design daily watt-hours required | ! style="width: 20%"|Design daily watt-hours required | ||
− | ! style="text-align:left;"| = | + | ! style="text-align:left;"| = Total average daily energy demand (Wh) from month with the highest ratio |
|} | |} | ||
− | ==Notes/references== | + | ==Notes/references== <!--T:12--> |
<references/> | <references/> | ||
+ | </translate> |
Latest revision as of 14:19, 1 April 2021
The design process for an off-grid PV system should use conservative, worst-case values to ensure that the system is capable of meeting the energy needs of users throughout the year. There are many locations that have a significant seasonal variance in solar resource due to poor weather or latitude. Many off-grid PV systems will see a significant variance in how loads are used throughout the year, especially in locations that are only seasonally occupied. These two different factors - load usage vs. solar resource - make it important to determine what month to use in the system design as the worst-case scenario. An analysis of loads and usage could be performed on a monthly basis, but the most drastic shift in usage likely occurs between the major seasons in a given region meaning two times per year. Determining the worst-case month can be done using a simple table and a quick calculation using monthly insolation data and Average daily Wh estimates for the two different time periods October - March and April - September. The two following values used for the design should be chosen from the month with the highest ratio of average daily watt-hours relative to average monthly insolation:
- Design daily insolation
- Design daily watt-hours required
Step 1: Determine monthly ratio of energy demand to solar resource
Month | Average monthly insolation (kWh/m²) | Total average daily energy demand (Wh) | Ratio |
---|---|---|---|
January | |||
February | |||
March | |||
April | |||
May | |||
June | |||
July | |||
August | |||
September | |||
October | |||
November | |||
December |
- Month: The month of the year.
- Average monthly insolation: Solar resource data obtained for the location from Weather and solar resource evaluation.
- Total average daily energy demand for the month from the load evaluation.
- Ratio = Total average daily energy demand ÷ Average monthly insolation
Step 2: Determine design values
Design daily insolation | = Average monthly insolation (kWh/m²) from month with the highest ratio ÷ 30 |
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Design daily watt-hours required | = Total average daily energy demand (Wh) from month with the highest ratio |
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