Tuesday, February 17, 2015

Optimal Tilt of Solar Panels in the Philippines

Bolinao Lighthouse Solar Panels Facing - Schadow1 Expeditions
Solar panels are effective when it faces perpendicularly to the rays of the sun. However, the sun does not stay exactly where it is as the earth rotates giving the sun its sunrise and sunset. And the sun does not tread the same location in the hemisphere as it moves about an angle depending on the time of the year. Hence a solar panel must have varying positions to maintain its maximum exposure to the sun. This article tackles about optimum solar panel positioning in the Philippines.



The sun moves from east to west at varying inclination respective from north to south depending on the month of the year. This is brought about by the earth's axial tilt that is currently at 23.4°.  Thus the sun treads east to west on the skies at a north-south variance of 46.8 degrees all throughout the year; having its maximum angle hitting its direct rays every December 21st at 23.4° degrees south latitude (Tropic of Capricorn) and 23.4° north latitude (Tropic of Cancer) every June 20th. These solar maximums are called solstice. Through this, the Philippines is located between 4° to 22° north latitude and using these variables, you can calculate the optimum position of solar panels in case the panels will be setup on a fixed position depending on your location in the country.

Earth's axial tilt
Earth's Axial Tilt
illustration by Przemyslaw Idzkiewicz


As the country is located north of the equator, the sun, at most times of the year will be treading from the south. If you are in Metro Manila which is located within 14° to 15°N latitude, the sun will tread north from May to August; and south from September to April. Thus most of the time of the year, the sun will be at the south. For the solar panels to obtain its maximum exposure, it also must face south.

As an example, the solar panels which powers the Bolinao Lighthouse at Pangasinan is facing south. (see cover photo)

Aside from knowing where the solar panel faces,  the optimum angle must also be known. Incidentally, the solar panels must be at mostly perpendicular to the sun and as it varies all throughout the year, we have to get the angular average of the sun respective to your location's latitude.

The keyword is "perpendicular". Thus when the latitude is below the axial tilt angle of the earth (23.4 degrees) where the Philippines is located, the calculation for the solar panel average optimum tilt would be latitude=angle from horizontal facing south.

But, we also have to consider that the sun gets dimmer as it nears the horizon and brighter when at the zenith (topmost location in the sky) due to atmospheric absorption. A correcting factor of 81.2%* has been derived for its annual average.

*The correcting factor percentage is based on insolation of kWh/m²/day garnered as an average from 33 towns and cities in the Philippines

Fixed Panels Optimum Tilt


This makes the final formula for the optimum tilt of solar panels in the Philippines to be

latitude x 0.812 = angular inclination from horizontal facing south

As an example, the Bolinao Lighthouse is located at 16.30704°N latitude. Thus, using the formula above, its solar panels must be facing south at an angle of  13.24131648° from horizontal.

Bolinao Lighthouse Solar Panels Optimum Tilt - Schadow1 Expeditions
Solar panels at Bolinao Lighthouse


North-South Manual Axial Tilt Solar Panel Fixtures


If your solar panels are installed on a fixture with a manual tilt mechanism,  you can change the facing of your panels per month using the following formula below based on your (1) latitude, (2) indicated monthly average correcting factor and (3) the latitude where the rays of the sun is directly hitting during the month:

  • January0.735(latitude + 23.4) = angle from horizontal
  • February0.835(latitude + 15.6) = angle from horizontal
  • March0.953(latitude + 7.8) = angle from horizontal
  • April1.024 x latitude = angle from horizontal
  • May0.933(latitude - 7.8) = angle from horizontal
  • June0.828(latitude - 15.6) = angle from horizontal
  • July0.775(latitude - 23.4) = angle from horizontal
  • August:  0.743(latitude - 15.6) = angle from horizontal
  • September:  0.933(latitude - 7.8) = angle from horizontal
  • October:  .75 x latitude = angle from horizontal
  • November:  0.714(latitude + 7.8) = angle from horizontal
  • December:  0.679(latitude + 15.6) = angle from horizontal

If the resulting value is negative, that means the angle of your panel must be facing north from horizontal. If a positive value, that means it is the angle of your panels facing south from horizontal.

Using the Bolinao Lighthouse as an example which is located at 16.30704°N latitude, the optimal tilt of the panels on January is 29.1846744° from horizontal, facing south; and 5.497044° from horizontal, facing north on July.

Note: The insolation correcting factor values presented with this formula is the Philippine country average. If you need precise calculations for your exact city (Philippine cities/towns only) and if in case facing your solar panels directly to south or north is impossible, we provide a more precise optimal tilt values for custom scenarios for a fee. For inquiries, you may contact me.


Obstructions to the solar panels


It is worth noting that the calculation is based on a scenario that there will be no objects that can cast a shadow to the panels anytime of the day. If that may be the case, if there is a tree nearby, you can use the moss on a tree trunk as a definitive hint. Whenever you see a mossy tree trunk, its opposite dryer side is the optimum direction where you can face your panels. However, the optimum angle has significantly changed if it is no longer facing south. For a more precise optimum tilt value, we provide a more precise value for custom scenarios for a fee. For inquiries, you may contact me.


Sun trackers


This guide however is only for optimum tilt of solar panels for fixed and semi-fixed installations. You can however purchase a "sun-chaser" using actuators and a light sensor to which its axis moves from east to west. Using this gadget can automatically tilt your panels to the brightest area of the sky in a day.

To obtain your latitude, head on to OpenStreetMap and find your solar panels coordinates.


Methodology

Abstract
The Philippines is located near the equator, right where there is adequate exposure from the sun as it is within the path of the sun in the ecliptic plane all throughout the year. Also, the Philippines has the 5th most expensive cost of electricity in the world. The Philippines needs to have alternate means of energy supply that is less costly and does not contribute to global warming. Using solar energy as source of electricity can help Filipinos produce their own power and save cost in the long run. As the sun’s location in the celestial sphere is not fixed all throughout the year, it is therefore important to pinpoint the optimal tilt of solar panels to produce the maximum amount of power available for semi-fixed installations.
DOI: 10.13140/RG.2.2.19886.61764
Pages: 9
Publication: 02-2015
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5 comments:

  1. There was a recent study saying that the optimal direction is facing west, not south. Is that applicable to Philippine setting?

    ReplyDelete
    Replies
    1. Hello Tri Minder,

      Can you site the study or link to that study? I am curious to know about that as well as I am planning to put up solar panels to power-up my little hydroponic garden in Dumaguete.

      Thanks.


      -- yamato --

      Delete
  2. What day of each month do you recommend changing the solar panel's tilt? First day of the month? 15th day of the month? Thanks.

    ReplyDelete
  3. This comment has been removed by a blog administrator.

    ReplyDelete
  4. AS i live in Ampayon and my house has the advantage of the horse shoe affect meaning the sun rises in the east then as the earth goes around the sun i then got east to south then south to the west so hence the horse shoe affect so my panels have the all-round sun affects. At a 30 degree affect

    ReplyDelete