Difference between revisions of "Standards for the Module Support Structure"

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The module support (array mounting) structure shall hold the PV module(s).
 
  
The module(s) shall be mounted either on the rooftop of the house or on a metal pole that can be fixed to the wall of the house or separately in the ground, with the module(s) at least 3 (4) meters off the ground.
+
= Overview =
  
<u>Roof-mounting</u>: Minimum clearance between the PV module(s) and the roofing material must be at least 10 cm. It is recommended that the module mounting structure be supported on top of a pole at least 50 cm long or fixed with supporting angles at four positions. The mounting structure must be anchored to the building or to the under-roof beam structure and not to the roofing material.  
+
The module support (array mounting) structure shall hold the [[Solar Cells and Modules|PV module(s)]].
  
<u>Wall-mounting</u>: A metal pole must be fixed to the outer wall of a house by appropriate clamps and fixing material (screws and wall plugs in solid walls or screws in wooden beams) in at least two positions at a reasonable distance. If the pole is not higher than the top of the house, the problem of shading from house-walls or roof-parts must be taken into consideration.
+
<br/>
  
<u>Ground-mounting</u>: A metal pole at least 2“ (50 mm) in diameter must be used with the modules attached at the top of the pole. The pole must be anchored in concrete at least one meter deep in the ground.
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= Module Support Structure =
  
The pole and mounting structure shall be sufficiently rigid to prevent twisting in the wind or if large birds alight on the array. The support structure shall be able to withstand winds up to 120 km/h (150 km/h in windy areas).  
+
The module(s) shall be mounted either on the rooftop of the house or on a metal pole that can be fixed to the wall of the house or separately in the ground, with the module(s) at least 3 (4) meters off the ground.
  
All metal parts shall be made of non-corroding materials (aluminium, stainless steel) or adequately protected against corrosion by galvanisation (layer approx. 30mm). The support structure should be able to withstand at least 10 years of outdoor exposure without appreciable corrosion or fatigue.
+
<br/>
  
The structure shall incorporate galvanised steel or stainless steel hardware (bolts, nuts, washers, etc.) for all external connections. These include the modules-to-structure, structure-to-pole and pole-to-building attachments. Particular attention shall be given to protection against galvanic corrosion if different metals are in contact. Different kinds of metal have to be kept separate. Under corrosive environmental conditions (high humidity, high salt content), only stainless steel hardware is allowed.
+
== Roof-mounting ==
  
<u>Optional</u>: The use of rivets or tamper-proof (non-removable) screws for theft protection is recommended.  
+
Minimum clearance between the PV module(s) and the roofing material must be at least 10 cm. It is recommended that the module mounting structure be supported on top of a pole at least 50 cm long or fixed with supporting angles at four positions. The mounting structure must be anchored to the building or to the under-roof beam structure and not to the roofing material.
  
No objects (trees, buildings, etc.) shall shade any part of the PV modules at any time of the year between 90 minutes after sunrise and 90 minutes before sunset. It should be noted that shading of even a small part of a module or array could cause a considerable reduction in power output. In situations where partial shading is unavoidable, this must be compensated in the system sizing calculations.
+
<br/>
  
The PV modules shall be mounted in a position which allows safe, controlled access for inspection and cleaning. However, security from possible theft and damage may also be important considerations. Where necessary, suitable measures shall be taken to reduce the risk of theft or damage (e.g. from flying stones). It should be possible, however, to remove modules for service, using appropriate tools.
+
== Wall-mounting ==
  
The module(s) shall be installed facing towards the equator (south in the northern hemisphere and north in the southern hemisphere).  
+
A metal pole must be fixed to the outer wall of a house by appropriate clamps and fixing material (screws and wall plugs in solid walls or screws in wooden beams) in at least two positions at a reasonable distance. If the pole is not higher than the top of the house, the problem of shading from house-walls or roof-parts must be taken into consideration.
  
The tilt angle should be selected by computer simulation to optimise the energy collection during the month with the lowest mean daily irradiation. To guarantee a selfcleaning effect of the modules by rainwater, the modules shall not be installed at a flatter angle than a minimum tilt angle of 15°.
+
<br/>
  
<u>Optional</u>: If computerised calculation is not available, as a general rule (in areas up to a latitude of 40° around the equator), a tilt angle to the horizontal plane equal to the latitude +10° can be assumed as a good approximation.
+
== Ground-mounting ==
  
<u>Optional</u>: Where necessary, deviations ±5° from the orientation to the equator shall be acceptable, unless otherwise specified. Where necessary, deviations of ±5° from the optimum tilt angle shall be acceptable.  
+
A metal pole at least 2“ (50 mm) in diameter must be used with the modules attached at the top of the pole. The pole must be anchored in concrete at least one meter deep in the ground.
  
<u>Optional</u>: Facilities for users to adjust the tilt angle in different seasons or to perform a manual tracking throughout the course of the day shall be acceptable, provided the users are well informed and wish to do so. In this case, the strength of mounting (e.g. resistance to wind-loading) shall remain sufficient.  
+
The pole and mounting structure shall be sufficiently rigid to prevent twisting in the wind or if large birds alight on the array. The support structure shall be able to withstand winds up to 120 km/h (150 km/h in windy areas).
  
<u>Optional</u>: Passive tracking systems for the PV generator shall be acceptable, if the additional gain of energy justifies the additional cost, provided that the tracking system can withstand wind-loading requirements and is of proven reliability. As the advantage of a tracking system is only valid during direct sunshine periods, the energy gained by the tracker can only be considered for system calculations if detailed irradiation statistics, including measurement of direct and diffuse insolation, are available for the site. Active trackers (requiring electrical power) are not allowed.  
+
All metal parts shall be made of non-corroding materials (aluminium, stainless steel) or adequately protected against corrosion by galvanisation (layer approx. 30mm). The support structure should be able to withstand at least 10 years of outdoor exposure without appreciable corrosion or fatigue.
  
<br>
+
<br/>
  
<br>
+
== Optional ==
  
  [[Technical Standards for SHS|⇒ Back to Technical Standards for SHS]]
+
The structure shall incorporate galvanised steel or stainless steel hardware (bolts, nuts, washers, etc.) for all external connections. These include the modules-to-structure, structure-to-pole and pole-to-building attachments. Particular attention shall be given to protection against galvanic corrosion if different metals are in contact. Different kinds of metal have to be kept separate. Under corrosive environmental conditions (high humidity, high salt content), only stainless steel hardware is allowed.
 +
 
 +
<u>Optional</u>: The use of rivets or tamper-proof (non-removable) screws for [[Tools to Prevent Theft of Panels|theft protection]] is recommended.
 +
 
 +
No objects (trees, buildings, etc.) shall shade any part of the PV modules at any time of the year between 90 minutes after sunrise and 90 minutes before sunset. It should be noted that shading of even a small part of a module or array could cause a considerable reduction in power output. In situations where partial shading is unavoidable, this must be compensated in the system sizing calculations.
 +
 
 +
The PV modules shall be mounted in a position which allows safe, controlled access for inspection and cleaning. However, security from possible theft and damage may also be important considerations. Where necessary, suitable measures shall be taken to reduce the risk of theft or damage (e.g. from flying stones). It should be possible, however, to remove modules for service, using appropriate tools.
 +
 
 +
The module(s) shall be installed facing towards the equator (south in the northern hemisphere and north in the southern hemisphere).
 +
 
 +
The tilt angle should be selected by computer simulation to optimise the energy collection during the month with the lowest mean daily irradiation. To guarantee a self cleaning effect of the modules by rainwater, the modules shall not be installed at a flatter angle than a minimum tilt angle of 15°.
 +
 
 +
<u>Optional</u>: If computerised calculation is not available, as a general rule (in areas up to a latitude of 40° around the equator), a tilt angle to the horizontal plane equal to the latitude +10° can be assumed as a good approximation.
 +
 
 +
<u>Optional</u>: Where necessary, deviations ±5° from the orientation to the equator shall be acceptable, unless otherwise specified. Where necessary, deviations of ±5° from the optimum tilt angle shall be acceptable.
 +
 
 +
<u>Optional</u>: Facilities for users to adjust the tilt angle in different seasons or to perform a manual tracking throughout the course of the day shall be acceptable, provided the users are well informed and wish to do so. In this case, the strength of mounting (e.g. resistance to wind-loading) shall remain sufficient.
 +
 
 +
<u>Optional</u>: Passive tracking systems for the PV generator shall be acceptable, if the additional gain of energy justifies the additional cost, provided that the tracking system can withstand wind-loading requirements and is of proven reliability. As the advantage of a tracking system is only valid during direct sunshine periods, the energy gained by the tracker can only be considered for system calculations if detailed irradiation statistics, including measurement of direct and diffuse insolation, are available for the site. Active trackers (requiring electrical power) are not allowed.
 +
 
 +
<br/>
 +
 
 +
= Further Information<br/> =
 +
 
 +
*[[Solar Module Mounting|Solar Module Mounting]]
 +
 
 +
<br/>
 +
 
 +
= References =
 +
 
 +
*This page on standards for the [[Solar Module Mounting|module support structure]] in [[Solar Home Systems (SHS)|solar home systems]] is an extract of the publication: [[:File:Gtz quality standards for solar home systems and rural health power supply.pdf|Quality Standards for Solar Home Systems and Rural Health Power Supply]]
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 +
<references />
  
 
[[Category:Solar]]
 
[[Category:Solar]]
 +
[[Category:Standardization]]

Latest revision as of 12:59, 23 May 2015

Overview

The module support (array mounting) structure shall hold the PV module(s).


Module Support Structure

The module(s) shall be mounted either on the rooftop of the house or on a metal pole that can be fixed to the wall of the house or separately in the ground, with the module(s) at least 3 (4) meters off the ground.


Roof-mounting

Minimum clearance between the PV module(s) and the roofing material must be at least 10 cm. It is recommended that the module mounting structure be supported on top of a pole at least 50 cm long or fixed with supporting angles at four positions. The mounting structure must be anchored to the building or to the under-roof beam structure and not to the roofing material.


Wall-mounting

A metal pole must be fixed to the outer wall of a house by appropriate clamps and fixing material (screws and wall plugs in solid walls or screws in wooden beams) in at least two positions at a reasonable distance. If the pole is not higher than the top of the house, the problem of shading from house-walls or roof-parts must be taken into consideration.


Ground-mounting

A metal pole at least 2“ (50 mm) in diameter must be used with the modules attached at the top of the pole. The pole must be anchored in concrete at least one meter deep in the ground.

The pole and mounting structure shall be sufficiently rigid to prevent twisting in the wind or if large birds alight on the array. The support structure shall be able to withstand winds up to 120 km/h (150 km/h in windy areas).

All metal parts shall be made of non-corroding materials (aluminium, stainless steel) or adequately protected against corrosion by galvanisation (layer approx. 30mm). The support structure should be able to withstand at least 10 years of outdoor exposure without appreciable corrosion or fatigue.


Optional

The structure shall incorporate galvanised steel or stainless steel hardware (bolts, nuts, washers, etc.) for all external connections. These include the modules-to-structure, structure-to-pole and pole-to-building attachments. Particular attention shall be given to protection against galvanic corrosion if different metals are in contact. Different kinds of metal have to be kept separate. Under corrosive environmental conditions (high humidity, high salt content), only stainless steel hardware is allowed.

Optional: The use of rivets or tamper-proof (non-removable) screws for theft protection is recommended.

No objects (trees, buildings, etc.) shall shade any part of the PV modules at any time of the year between 90 minutes after sunrise and 90 minutes before sunset. It should be noted that shading of even a small part of a module or array could cause a considerable reduction in power output. In situations where partial shading is unavoidable, this must be compensated in the system sizing calculations.

The PV modules shall be mounted in a position which allows safe, controlled access for inspection and cleaning. However, security from possible theft and damage may also be important considerations. Where necessary, suitable measures shall be taken to reduce the risk of theft or damage (e.g. from flying stones). It should be possible, however, to remove modules for service, using appropriate tools.

The module(s) shall be installed facing towards the equator (south in the northern hemisphere and north in the southern hemisphere).

The tilt angle should be selected by computer simulation to optimise the energy collection during the month with the lowest mean daily irradiation. To guarantee a self cleaning effect of the modules by rainwater, the modules shall not be installed at a flatter angle than a minimum tilt angle of 15°.

Optional: If computerised calculation is not available, as a general rule (in areas up to a latitude of 40° around the equator), a tilt angle to the horizontal plane equal to the latitude +10° can be assumed as a good approximation.

Optional: Where necessary, deviations ±5° from the orientation to the equator shall be acceptable, unless otherwise specified. Where necessary, deviations of ±5° from the optimum tilt angle shall be acceptable.

Optional: Facilities for users to adjust the tilt angle in different seasons or to perform a manual tracking throughout the course of the day shall be acceptable, provided the users are well informed and wish to do so. In this case, the strength of mounting (e.g. resistance to wind-loading) shall remain sufficient.

Optional: Passive tracking systems for the PV generator shall be acceptable, if the additional gain of energy justifies the additional cost, provided that the tracking system can withstand wind-loading requirements and is of proven reliability. As the advantage of a tracking system is only valid during direct sunshine periods, the energy gained by the tracker can only be considered for system calculations if detailed irradiation statistics, including measurement of direct and diffuse insolation, are available for the site. Active trackers (requiring electrical power) are not allowed.


Further Information


References