What is the optimum row spacing for a PV system?

Optimal PV system row spacing presented considering land-use and latitudes 15–75°N. Latitude-based formulae given for optimum tracked, fixed-tilt, and vertical spacing. Optimum tilt of fixed-tilt arrays can vary from 7° above to 60° below latitude-tilt. Similar row spacing should be used for tracked and fixed-tilt PV arrays >55°N.

How to choose the optimal inter-row spacing for a PV system?

Beforehand, a distinction ought to be made about the dimensions of the land on which the PV system is deployed: limited (e.g. rooftops) and unlimited land. Taking these factors into consideration, the optimal inter-row spacing may be derived from the solution of a “constraint optimization problem”, that formulates the design of a PV system.

What is optimum spacing for bifacial PV arrays?

Latitude-based formulae given for optimum tracked, fixed-tilt, and vertical spacing. Optimum tilt of fixed-tilt arrays can vary from 7° above to 60° below latitude-tilt. Similar row spacing should be used for tracked and fixed-tilt PV arrays >55°N. Bifacial arrays need up to 0.03 lower GCR than monofacial, depending on bifaciality.

Why is inter-row spacing important in photovoltaic systems?

Inter-row-spacing plays a significant role in the performance and economics of photovoltaic (PV) systems. The performance and economics are expressed by the amount of the energy generated along the life time of the system and the payback time.

How do you calculate the distance between PV panels?

The separation between rows of PV panels must guarantee the non-superposition of shadows between the rows of panels during the winter or summer solstice months. We can calculate this distance whit this expression: d = ( h / tanH) · cosA Where: d is the minimum distance between panel lines.

What are general guidelines for determining the layout of photovoltaic (PV) arrays?

General guidelines for determining the layout of photovoltaic (PV) arrays were historically developed for monofacial fixed-tilt systems at low-to-moderate latitudes. As the PV market progresses toward bifacial technologies , tracked systems, higher latitudes, and land-constrained areas, updated flexible and representational guidelines are required.