Save water, produce green energy, think big: These guiding principles have led Siemens’ KACO new energy GmbH and local partner Altitude to supply Israel’s largest floating solar park with power equipment. The Virtual Central system solution provides an ideal fit.
The Habonim water reservoir is in the coastal region south of Haifa, Israel. The reservoir contains 3.3 million cubic meters of water, covering an area of 112,50 acres. The water is used for regional agriculture activities. During hot days, some of the water evaporates from the reservoir and cannot be used for agriculture anymore.
Fortunately, Israel has committed to a high use of renewable energy. This goal comes with new challenges. Israel is facing space constrains, for example. Solar energy competes with other important infrastructure projects.
Since September 2021, the Habonim water reservoir has been covered by 51,500 solar modules, with a total power of 23 MW. This floating PV plant generates clean energy for 3,000 households. The system was constructed using the innovative Virtual Central design.
The solar module strings are collected in dc-combiner boxes, which also manage the string monitoring. The dc-combiner boxes are located on the floating structure on the reservoir. From there, dc cables transport the energy to the designated inverter hubs, which are land-based next to the reservoir. This eases the operation and maintenance activities on the 120 blueplanet 150 TL3 string inverters from Siemens’ German production facility, which are available in Israel through distribution partner Altitude.
The Virtual Central design offers a host of other advantages for floating solar systems. Because the inverters can be installed next to the reservoir, there is no need for extensive cabling. Only single-MPPT inverters by Siemens can be deployed in this fashion. Furthermore, power losses stay on the dc side and a highly efficient energy transport from the reservoir to land at 1500 Vdc can occur. Thanks to this, and due to the efficiency of up to 99.2%, the single-MPPT inverters can provide higher yields than conventional system designs with multi-MPPT inverters.
This has been confirmed recently by independent research institutes. Because fewer cables are required for this design, the investment costs for the balance of system can be reduced by up to 10%. This leads to overall reduced investment costs.
In summary, the Virtual Central approach reduces investment costs, ensures higher yields and is advantageous for operating and maintenance activities, especially on floating photovoltaic (PV) systems. Other floating PV systems that rely on the Virtual Central approach are in development and will be deployed soon.
Read "A study on the possible yield gain by inverters with multi-mppt compared to single-mmpt inverters for different solar system configurations and locations."

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