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A real-world representation of the shading from surrounding objects is extremely important for precisely calculating yields. You’re therefore looking for a program which takes shading into account as analytically as possible?

PV.SOL® premium does just that! You can visualize all roof-integrated or mounted systems - even on the ground - with up to 7.500 mounted modules or up to 10.000 roof-parallel modules in 3D and calculate shading on the basis of 3D objects.The user-friendly 3D menu navigation is divided into the six sections of terrain view, object view, module coverage, module mounting, module configuration and cable plan. Simply select possible shading objects and position them on the terrain or the building. PV.SOL® premium then calculates how often on average the modules are shaded by the objects and displays the result in graphical form.Your benefit: the visualization in 3D mode provides you with detailed information on shadows cast at various times of the day and year, and consequently on likely reductions in yield.Through the detailed analysis of the shading of individual modules, the effect of power optimization on the system yield can also be precisely visualized in PV.SOL® premium.

Electric vehicles can now be divided into several groups. For each group the user can determine the vehicle type, number and expected kilometers.

The timings at the charging station can be set individually for each group on 7 days of the week.As previously, the user can select their electric car from the database. They then enter their daily mileage, and PV.SOL® premium calculates how much PV energy can be used to charge the car.

The software also calculates the cost per 100 kilometers, with and without the use of photovoltaics. For the input of object data, 3D models in different file formats can now be imported into the software via a new interface. This makes it possible to import realistic and detailed 3D objects created with photos taken from different perspectives (e.g. Using a drone). This will add another important tool to the already existing possibility of importing floor plans, cadastral maps and screenshots from web-based satellite maps (e.g. Google Earth) directly into the 3D visualization and thus integrating them to scale into a project.

Flexibility has been significantly increased with regard to the configuration of the modules, which are automatically placed on an object. The new possibility of polystring configuration allows completely different strings to be connected parallel or in series to an MPP tracker.

This is required, for example, to connect an east-west roof parallel to one MPP tracker. Even different modules in a string can now be interconnected, e.g. Defective modules that are no longer available which need to be replaced by similar new ones. Modules with different orientations can now also be connected in one string via the integration of power optimizers (e.g.

SolarEdge, Tigo). These new functionalities increase the flexibility of the design process enormously and allow even more detailed configuration and simulation of the PV system. PV.SOL® premium leads you in a few easy steps to your target. First, you select one or more PV array buildings from a collection of common building types and sizes as required. Dormers, bay windows, walls, saw tooth roofs, and projecting roofs can also be covered with PV modules. It is possible to model the available roof area with millimeter precision by entering measurements for the roof overhang and restricted areas.

You then simply enter the objects that could cause shade – buildings, trees walls, masts, etc. – and size them. Objects in the distance can be taken account of as a horizon line. The configuration of the modules can be carried out automatically or manually. You can decide whether you want to configure multiple module areas with one inverter or choose an inverter for each module area - or combine both. The current status of the system check for the complete configuration, each inverter and MPP tracker is displayed at all times in the configuration window. This means that you always have an overview of ​​whether your chosen configuration is in the design, tolerance or restricted area.

Another highlight is the option 'Suggest Configuration', which allows you to quickly and easily load the best configuration from your favorite inverters into the design. After configuration, the assignment of modules to strings can be individually adjusted, for example if required by the shading situation. You can enter detailed costs for the modules, inverters, or mounting in PV.SOL® premium.

Loans, discounts, depreciation, and tax payments, as well as the month that the system goes into operation, are all taken account of. Various feed-in tariffs and bands for systems on roofs, building facades, and ground-mounted systems can be saved and amended.

PV.SOL® premium determines not just the capital value, but also the electricity production costs and the amortization period according to VDI Guideline 2067 (VDI: Association of German Engineers). The selection of multiple feed-in tariffs is possible, and their terms can be defined as follows: parallel, consecutive or offset. Deeming can be considered when designing systems with self-consumption in the UK.The results are shown in a detailed table in the balance of costs. Languages (Program):English, French, German, Italian, Polish, Portuguese, SpanishLanguages (Presentation):English, French, German, Italian, Polish, Portuguese, SpanishAlbanian, Arabic, Chinese, Croatian, Czech, Danish, Dutch, Hungarian, Norwegian, Swedish, Slovakian, TurkishFeatures:. Calculation of electric vehicles with battery storage system. High and Low Tariffs (HT/LT) for designing plants.

Buildings and objects can be extrudec using floor plan drawings and satellite maps. DC-coupled storage systems can also be simulated. DC systems with generator or load-sharing are available to select. Output of yield probabilities (e.g., P90). Sizing help for battery storage systems. Thermal flat and tube collectors as 3D objects.

Optimization of the polygon drawing tool, e.g. Definition of right angles. Visualization of the roof structure by displaying rafters and battens. All roof areas in the 3D visualization will now be issued with the most important dimensions in a plan. We have again compared the simulation results from PV.SOL® with actual measured PV module data. The SolarEdge system includes module-level DC-DC power optimizers and string inverters.PV.SOL does not perform system design for SolarEdge inverters and power optimizers. Please use the SolarEdge Site Designer for string sizing, inverter and power optimizer selection.Then PV.SOL can be used for energy estimation of the design obtained from the SolarEdge Site Designer.For a detailed description please see the following.The SolarEdge Power Optimizers are only available from the program version PV.SOL Expert 6.0.

The climate data are stored in a database. In PV.SOL Pro/Expert they can be viewed by using the menu item 'Results' - 'Energy and Climate Data'. Select the desired data category, like 'Radiation', 'Wind' or 'Temperature' and press the 'OK' button. To view more detailed results you can scale the graph via the 'Axes' - 'X-Axis' menu. Choose your desired time and display interval. The graph can also be viewed in tabular format. To do this click on the 'Table' button.

The table can be exported for further processing, e.g. In Microsoft Excel.In PV.SOL premium and PV.SOL the Excel export in the presentation window can be used to display hourly values of the climate data. In the dialog 'Technical Data' - 'PV Array' you can select between single and dual axis tracking:- With single axis tracking, an azimuth of -90° to 90° is taken into account, with a vertical rotation axis.- Dual axis tracking calculates the situation with movement of both rotation axes.In both cases, the technical limits of the tracking system are not taken into account. This means that if the tracking system can only be rotated up to a certain angle, this is not taken into consideration by the software.To use this feature in PV.SOL Expert please select system planning without 3D visualisation.

The PV Solar Surface Area is the area that forms the basis of the manufacturer’s measurement of module efficiency. For simulation, the program determines the Solar Surface Area from the calculated power and efficiency (ETA), using the following formula:PV Solar Surface Area = Nominal output(STC) / (1000 W/m².

ETA(STC))In some cases, the resulting figure is different from the Gross PV Surface Area. If, for example, the manufacturer does not take the module frame into account when calculating the ETA (STC), in order to obtain a better ETA (STC), the Solar Surface Area will be smaller.

For a Solar Surface Area that corresponds to the Gross PV Surface Area, you should click on the calculator symbol to calculate the Module Efficiency. With PV.SOL you can build modules and inverters from different manufacturers into a system and mount these at different orientations and inclinations. To do this, the program splits the system into a number of different sub-arrays.A PV array/sub-array is a PV surface unit made up of the same types of module mounted together and set at the same angle and orientation. If you have a number of inverters connected to an array, these also have to be all the same type and configured in the same way.You are able to define up to 6 sub-arrays in PV.SOL Pro/Expert. In PV.

SOL premium and PV.SOL the number of sub-arrays is arbitrary. No, with our PV programs it is not possible to calculate costs. There are no component prices or other costs included in the software. Every user will need to find out the costs for the planned system themselves. The system price determined by the user has to be entered in the 'economic efficiency calculation' dialog and forms the basis of the economic efficiency prognosis. Default values are provided in the economic efficiency calculation and should not be viewed as average or empirical values.

They need to be adjusted by the planner. Whether the system is roof-integrated or roof-parallel does not play a decisive role in visual planning in the 3D tool, and thus the 3D tool does not yet differentiate between the two. Categorisation of the system as being roof-integrated or roof-parallel only occurs after 3D planning has been completed and you have returned to PV.SOL in the dialog 'Losses' under Installation Type. Please select the option ' With Ventilation' if your system is installed on a substructure parallel to the roof cladding or 'Without Ventilation' if the system is integrated into the roof cladding. The calculation then takes the corresponding temperature situation into account. You can access the dialog 'Losses' via the losses icon in the PV.SOL Expert main menu (a white bar in a red circle). Please note that you have to choose 'free-standing' if you like to plan mounted systems.

This message means that an important hardware feature for the 3D display is not available on the graphics card being used.Possible reasons for this:- DirectX version lower than 9.0c.- DirectX 9.0c is not supported by your graphics card.- You are using a terminal server solution. The DirectX graphics component is not capable of running on a terminal server.- You are using a Windows emulator. Not all Windows emulators support DirectX.In many cases an update of your graphics card drivers can help. Go to the menu 'System' - 'Technical Data' and then choose the 'PV Array' tab.

For mounted systems select the installation type 'Free-Standing'. You can either enter a set number of modules (select 'Define Module Number') or you can select 'Determine Output from Roof Area', in which case you can click on the 'Roof Parameters' button to open the corresponding dialog.

With mounted systems ('Free-Standing' installation type) and 'Determine Output from Roof Area' when you click on the 'Roof Parameters' button an additional dialog appears showing the minimum distance between modules.Please note that mutual shading of the modules is not taken into account in the simulation.How do I design a mounted system in the 3D visualization of PV.SOL Expert? All modules are calculated with the part-load characteristic curve (efficiency or ETA curve). The specific part load operation for the modules is in some cases given by the manufacturer (see 'Databases' - 'PV Module' - 'U/I Char. – Part Load'). In all other cases a characteristic curve is used that is specific to the cell type.

It is possible to select from 11 different cell types. For the 5 thin film types: amorph, HIT, CIS, CdTe and triple a-Si, standard characteristic curves are available for typical part load operation. For the other 6 cell types the standard operation for monocrystalline modules is used. The current feed-in tariffs can be downloaded from the of our website. Please save and extract the.zip file in the tariff folder of your PV.SOL program. Under 'Options' - 'Paths' - 'Electricity Tariffs', you can see where the tariff folder is kept on your computer. If you want to set the new feed-in tariff as the 'Standard Feed-in Tariff for New Projects', you can update this under 'Options' - 'Settings' - 'Projects'.In PV.

SOL advanced and PV. SOL basic the new feed-in tariffs are delivered via database update. Usually the reason for that is the part load operation behavior of the modules. The specific data for every module are entered in the database by the manufacturers. They have the possibility to enter a specific part load operation point for their modules in our database. Then a specific part load operation curve is calculated for the module.

If the manufacturer don’t enter the specific part load operation point and select the 'standard part load operation' option a curve for the cell type is used (e.g. Monocrystalline) for the calculation. Which part load operation curve is used for the selected modules can be seen in the d atabase. In PV. SOL premium and PV.

SOL please open the tariff database via 'Databases feed-in tariffs' and select the icon 'New'. Afterwards enter the required data.To create your own feed-in tariffs in PV.SOL Pro/Expert you have to select the feed-in option in the databases menu. Please enter a name and choose your preferred country. Now insert the period of validity for tariff, the number of power levels and the inflation. Afterwards you can enter the feed-in payments in the table. Finally you have to save the file. In PV.SOL advanced the Excel export can be found in the presentation window.In PV.SOL Pro/Expert you are able to have a look at the detailed results via the “Energy and Climate Data” button. Please select your preferred data.

With a click on “Table” you can switch the graph display to the table display. Thereafter you are able to change the values to different intervals (e.g.

Week, month, year) by using 'x-axis'. Use “File” = “Copy” to transfer the data to the clipboard. In Excel you can now insert the data with “paste”.