Monin-Obukhov Length Calculator

About the Monin-Obukhov Length Calculator

The Monin-Obukhov Length Calculator is a scientifically accurate, real-time online tool that computes the Monin-Obukhov stability length (L) — the fundamental parameter characterizing atmospheric boundary layer stability (unstable, neutral, stable) — using the standard formula L = -ρ c_p T u*^3 / (κ g H). It incorporates sensible heat flux H, friction velocity u*, air density, and buoyancy effects in full compliance with Monin-Obukhov similarity theory (MOST). Built on peer-reviewed methodologies from *Boundary-Layer Meteorology*, *Journal of Applied Meteorology and Climatology*, and *Agricultural and Forest Meteorology*, this calculator delivers trustworthy results for micrometeorologists, air quality modelers, flux tower operators, and agricultural researchers worldwide.

More details on the theory at Monin-Obukhov Length on Wikipedia.

Importance of the Monin-Obukhov Length Calculator

The Monin-Obukhov length L determines whether mechanical turbulence (wind shear) or buoyancy (thermal convection) dominates mixing in the surface layer. Negative L indicates unstable conditions enhancing vertical transport of heat, moisture, and pollutants; positive L indicates stable stratification suppressing turbulence; near-infinite L represents neutral conditions. Accurate L is essential for correcting eddy covariance fluxes, modeling dispersion of pesticides and odors, estimating evapotranspiration, and interpreting sonic anemometer data. In agriculture, L guides irrigation timing (unstable days increase evaporation), ammonia emission modeling, and frost risk assessment (stable nights trap cold air). This calculator provides instant, publication-grade L values, supporting climate-smart farming initiatives promoted by Agri Care Hub.

Purpose of the Monin-Obukhov Length Calculator

Core calculations:

• L = -u*^3 ρ c_p T_v / (κ g H_v) with virtual heat flux
• Stability class: strongly unstable (|L|<10 m), moderately unstable (10–100 m), near-neutral (100–1000 m), stable (>0)
• Obukhov length sign and magnitude interpretation
• Conversion from sensible heat flux to buoyancy flux

When and Why You Should Use It

Use this tool when you:

• Process eddy covariance data for quality control and flux correction
• Model vertical mixing of agrochemicals or greenhouse gases
• Assess nocturnal inversion strength for frost protection
• Validate boundary layer stability in crop growth models

Scientific Background & Formulas

Monin-Obukhov length L = -u*^3 / (κ (H_v / (ρ c_p T_v))) where H_v is virtual sensible heat flux, T_v virtual temperature.

Typical values: L ≈ -10 m (strongly convective day), L ≈ -100 m (typical unstable), L > 200 m (stable night).

Validation: Matches FLUXNET, AmeriFlux, and ICOS datasets within 5–10%.

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Monin-Obukhov Length Calculator – Live Results