Clear-Sky Beam Horizontal Irradiance (BHIcs)

Clear-Sky Beam Horizontal Irradiance (BHIcs) – Mean Surface Direct Solar Radiation

Global | ~1 km Resolution | 2020–2024

Short Description

This dataset represents the spatial distribution of clear-sky beam horizontal irradiance (BHIcs), defined as the direct solar radiation reaching the Earth's surface under cloud-free atmospheric conditions.

Technical Specification

The dataset is derived from ERA5 clear-sky direct solar radiation (CDIR) fields and represents mean clear-sky beam horizontal irradiance for the period 2020–2024.

ERA5 hourly radiation data were aggregated across the 2020–2024 period to produce a multi-year climatological mean expressed as radiative flux.

Clear-sky conditions represent the absence of cloud attenuation, with radiation governed by solar geometry and atmospheric composition.

This dataset is developed by AtmosphericIQ LLC and processed for distribution and deployment by Engineering Director, Inc.

Note: This dataset is not equivalent to Direct Normal Irradiance (DNI).

Key Characteristics

• Units: watts per square meter (W/m²)
• Represents theoretical direct beam solar radiation under cloud-free conditions
• Derived from ERA5 clear-sky direct radiation fields (CDIR)
• Represents climatological mean conditions for 2020–2024

Spatial Characteristics

• Coordinate System: GCS_WGS_1984
• Native Resolution: ~0.25°
• Resampled Resolution: ~1 km (30 arc-second)
• Coverage: Global (±85.0511° for web compatibility)

Role in SSI™ Model

Clear-Sky Beam Horizontal Irradiance (BHIcs) is one of several radiative variables incorporated into the Solar Suitability Index (SSI™) model developed by AtmosphericIQ LLC.

As a representation of theoretical direct solar energy under ideal atmospheric conditions, BHIcs contributes to the radiative baseline used in evaluating atmospheric attenuation and variability within the SSI™ scoring framework.

This dataset is provided as a supporting climatic input layer and does not independently represent solar suitability.

Applications

• Solar resource potential analysis under clear-sky conditions
• Direct beam irradiance assessment
• Atmospheric attenuation and cloud impact analysis
• Geospatial screening workflows

Data Source

Derived from Copernicus Climate Change Service (C3S) ERA5 reanalysis data, with processing including temporal aggregation (2020–2024), spatial resampling to ~1 km resolution, and web-compatible clipping.

Related SSI™ Dataset

This dataset is a supporting climatic input to the Solar Suitability Index (SSI™), a global multi-parameter model developed by AtmosphericIQ LLC.

For the full solar suitability model and derived classification datasets, see:
Global Solar Suitability Index (SSI™) – Continuous Score (1–100)

Data Access & API Services

This dataset is available through Engineering Director, Inc. platforms:
www.engineeringdirector.com

Use beyond visualization, including API access, automated queries, or integration, is subject to the Engineering Director API Terms of Service.

Legal & Licensing

© 2026 AtmosphericIQ LLC and Engineering Director, Inc. All rights reserved.

This dataset is provided for informational and analytical use only and is supplied "as is" without warranty of any kind. Users assume all risk associated with its use.