Q CELLS Q.PEAK DUO L-G6.3 / BFG Installation And Operation Manual Download

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INSTALLATION AND OPERATION MANUAL SOLAR MODULES Q.PEAK DUO L-G6.3 / BFG AND L-G6.3 / BGT – Q CELLS

INSTALLATION AND OPERATION MANUAL SOLAR MODULES Q.PEAK DUO L-G6.3 / BFG AND L-G6.3 / BGT– Q CELLS

Installation Site

Please note the following guidelines that apply to the installation site:

•

Solar modules are not explosion-proof and are not suitable for
use in explosive environments.

Do not operate solar modules near highly flammable gas and
vapors (e.g. gas tanks, gas stations).

Do not install modules in enclosed space.

Do not install modules in locations where they may be submerged
in water (e.g. floodplains).

Do not use modules as a substitute for the normal roofing (e.g.
modules are not watertight).

Do not install modules in close proximity to air conditioning
systems.

Do not install modules above 13,120 ft (4,000 m) altitude above
sea level.

Contact with saline water (e.g. spray water from the sea) and
salt aggregation on the modules must be avoided.

Do not bring any chemical substance (e.g. oil, solvent etc.) into
contact with any part of the panel. Only substances, which are
released by Q CELLS, are allowed to be used during installation,
operation and maintenance.

Any installation of modules on surfaces of water is prohibited.
This includes installations on floating as well as pile-based
platforms. Q CELLS may extend the coverage of its warranty
to such installations, based on a case by case assessment of
the system design and location. A prior written consent by the
warrantor is required in any case.

Prevention of Shadowing Effects

Optimal solar irradiation leads to maximum energy output:

For this reason, install the modules so that the junction boxes
are below and the modules front side face the sun.

Avoid shadowing (due to objects such as buildings, chimneys
or trees).

Avoid partial shading (for example through overhead lines,
dirt, snow).

Limitations

The solar modules are designed for the following applications:

•

Operating temperatures from –40 °F to +185 °F.

•

Pull loads and push loads according to chapter „2.3 Mounting
Options“ (‘Test Load’ in accordance with IEC 61215 and ‘Design
Load × 1.5’ in accordance with UL 61730).

•

Installation using a mounting structure for solar modules.

Mounting Structure Requirements

Requirements for the mounting structure:

•

Conform to the necessary structural requirements.

•

Compliant with local snow and wind loads.

•

Properly fastened to the ground, the roof, or the façade.

•

Forces acting on the module are relayed to the mounting sub-
structure.

•

Ensures sufficient rear ventilation of the module.

•

Avoid the usage of different metals to prevent contact corrosion.

•

Allows for stress-free expansion and contraction due to tem-
perature fluctuations.

Ensure that no additional forces are applied through the mounting
system into the module except for the wind and snow loads.
Additional forces and moments of torque at the mounting
positions caused by torsions, displacements or vibrations in
the mounting system are not allowed.

Ensure that the clamps and the mounting frame are compatible.

Clamp System Recommendations

Use customary clamps that satisfy the following requirements:

•

Clamp width: ≥ 1.5 in (38 mm).

•

Clamp height compliant with a 1.38 in (35 mm) frame height.

•

Clamp depth: 0.2-0.47 in (5-12 mm). (applicable for all CL and TC
clamping mounting options at section „2.3 Mounting Options“)

•

Clamps are not in contact with the front glass.

•

Clamps do not deform the frame.

•

Clamps that satisfy the structural requirements based on the
conditions of the installation site according to the applicable
regulations and technical standards.

•

Long-term stable clamps that securely affix the module to the
mounting frame.

75°

3°

Maintain the permissible angle of inclination.

•

Minimum angle of inclination: 3°

•

Inclination angles above 75° may be limited by
local regulations

Standing water on the modules glass needs to be
avoided.

PLANNING

2.2 REQUIREMENTS