Weiss Technik realises climatic test chambers for testing XXL solar modules 

Case Study

Why 

  • Increasingly larger PV modules  
  • Limited space in test laboratories  
  • Climate tests with optimised use of space 

How 

  • Turnkey solution  
  • Customer-specific one-off production 

What 

  • Especially slim and tall test chamber  
  • Test space with corrosion-resistant components  
  • Tests according to DIN EN 61215 

 

Why / The challenge. 

Photovoltaic modules are becoming increasingly larger, partly due to the requirements of increased use on open agricultural land and installation on water surfaces. To test the XXL modules, which can be up to 3 m2 in size, the Fraunhofer Institute for Solar Energy Systems needs a large climatic test chamber for its test laboratory. This should have as small a footprint as possible. 

The test chamber must enable three temperature and humidity tests in accordance with the standard IEC 61215: the thermal cycling test, the humidity-freeze test and the damp-heat test. During the tests, a maximum temperature change rate of 3.33 K/min may be reached, but the standard leaves room for interpretation for the development of a more economical variant with smaller refrigerating unit. The required temperature range is -40 ºC to +90 ºC, the humidity range 20 to 90 % r.h.  

The test space must be constructed in such a way that it does not become damaged by the corrosive outgassing of the PV modules. 

 

How / The idea. 

A particularly tall and slim test chamber was developed in close cooperation with the customer. It can be used to test PV modules  

that are up to 2700 mm high and 1200 mm wide in an upright position. It is based on the tried-and-tested ClimeEvent-PV test chambers, the test chamber of which has been extended upwards. In order to slide the modules in easily, fastening rails are positioned in the test space. 

To protect against corrosive outgassing from the PV modules, the test cell and the components in the test room are made of 1.4404 stainless steel and completely welded without silicone joints. Heating, heat exchanger and other components inside the test space are made of Incoloy®, an especially corrosion-resistant nickel-iron-chrome alloy. 

 

What / The solution. 

XXL Climatic test chamber ClimeEvent C/5´/-50/+150/2/PV 

The test space has a volume of 5 m3 and is 1200x2700x1450 mm (WxHxD) in size. There are three comb-shaped fastening rails mounted on the rear wall of the test space, allowing up to ten PV modules to be fixed in place in an upright position. The technology is installed behind the test space, the overall dimensions are 1520 x 3370 x 4000 mm (WxHxD). For quick and easy set-up and startup, the compact test chamber is delivered upright on a frame. 

The test chamber is controlled via the digital measuring and control system SIMPAC® and the tried-and-trusted WEBSeason® software. The operation, program and monitoring unit with its webpanel is mounted on the test space door.  

Temperature testing in the range of -60 to +150 °C and climate testing in the range of +10 to +95 °C can be carried out with a relative humidity of 10 to 95%. We meet the requirements of DIN EN 61215 in temperature tests. If necessary, higher rates of temperature change can also be achieved. The water-cooled refrigerating system works with the refrigerants R-449A and R-469A. An alternative version with CO2 as refrigerant is possible. 

 

Your advantages at a glance 

  • Extra tall test chamber with small footprint for XXL solar modules 
  • Compact system, simple to install (plug & play) 
  • Corrosion-resistant design 
  • Planning, development, construction, assembly, startup, calibration and service from a single provider 

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