Does land surface radiation affect PV energy production in the barren area?

Conclusions The observed land surface radiation and heat balance of PV plants is used to develop a sophisticated model of the impacts of PV energy production in the barren area. To our knowledge, this is first time that such a model has been developed.

How can a new PV module remedy deficiencies in existing PV energy models?

To remedy the deficiencies in the existing PV energy models, the newly sophisticated PV module established in this paper will include both the land surface radiation balance, sensible heat balance and the surface physical dray process over the locations of PV plants.

Can PV plants affect the climate in a barren area?

The simulation results suggest that PV plants under the two scenarios could impact the local climate in the barren area, causing local climatic changes in the lower-level atmosphere (10-m wind speed, land surface temperature, and 2-m specific humidity).

How do PV plants contribute to surface energy balance over barren area?

The surface radiation contributions of PV plants to the surface energy balance over barren area were written as follows, (1) NSW = ( 1 − α − ε) × S for the shortwave component and (2) LW = ( 1 − β) × L W o for the longwave component, where the left-hand side of Eq.

What percentage of ground coverage is attributed to natural barren ground?

Thus, approximately 70% and 30% of the ground coverage is attributed to the natural barren ground and PV panels, respectively.

What is the best model for predicting atmospheric effects of PV panels?

Till now, the most sophisticated PV energy balance model available for modelling the atmospheric effects of PV panels is a roof-top PV model developed by Masson et al. [ 21 ]; which presents the PV panel mainly by its radiative characteristics.