![]() This layout configuration is better for big PV plants with regular area definitions. Regular blocks: this option defines a rectangular block of structures belonging to one power station and repeats it throughout the whole layout.Here’s how to use these layout parameters to get the most out of them: Type of Layoutįirst, you can select the type of layout you want among the following options: You have at your disposal numerous layout parameters that you can play with so you can visualize in real-time how they affect the final layout result. It does so by avoiding the creation of any stretched out blocks or ,in the case of complex sites, avoiding any blocks being divided between far areas. Resulting in an improved, more centered position of these blocks, with respect to the roads, thus saving you unnecessary, low voltage cables.ĭo you want to learn more from a developer POV? Check out our previous webinar recording Early-stage PV project optimization: a developer POV, where you will learn hoy to optimize your PV plant projects at the very early stages. ![]() With such a goal in mind, we have implemented a new update to our algorithm that ensures a more regular shape for these blocks. Let's first take a look at the structure grouping algorithm where we have considered the importance of defining the way different blocks of structures are connected to a string box, inverter or power station. So, buckle up and enjoy the ride! Structure Grouping Algorithm In this article, you will learn how to define some parameters that will help you optimize your PV plant, such as choosing the type of layout, defining the DC/AC ratio or sizing your equipment. We hope to shed light on some of the latest developments that the layout algorithm has experienced and guidance on how to optimize your design. This algorithm has always been and remains to be constantly evolving. Other important aspects are the calculation of cable cross-sections in accordance with different electrical standards, the energy production calculation, the substation engineering, and the generation of all the necessary documents and drawings related to each design. These include the automatic positioning of structures, roads, power stations, cables, and so on. In RatedPower, our aim has always been to ease and simplify the work of solar PV engineers through the automation of all the different tasks they perform on a daily basis. Since the start, our goal was for pvDesign’s algorithm to focus greatly on certain aspects of the design of a PV plant. These new parameters will help you make sure that your site is completely filled with structures to the most optimal design configuration. In the last few months, we have implemented some game-changing improvements which have significantly reduced the simulation time and improved the structure grouping algorithm. PvDesign is a tool that allows you to optimize your solar PV designs quickly and efficiently.
0 Comments
Leave a Reply. |