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Condensation- Induced Winds a supplemental theorem to the traditional thermal wind model

Deborah E. Ross University of Montana Department of Physics and Astronomy. Condensation- Induced Winds a supplemental theorem to the traditional thermal wind model. Overview. Basic Meteorological Assumptions Traditional Wind Model Condensation Induced Winds Derivation

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Condensation- Induced Winds a supplemental theorem to the traditional thermal wind model

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  1. Deborah E. Ross University of Montana Department of Physics and Astronomy Condensation-Induced Windsa supplemental theorem to the traditional thermal wind model

  2. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  3. Weather vs Climate

  4. Basic Meteorological Assumptions: • Hydrostatic Equilibrium • Ideal Gas Law • Adiabatic Expansion

  5. Hydrostatic Equilibrium

  6. Ideal Gas Law

  7. Adiabatic Expansion Increase in volume without heat flow in or out of the volume (mb) apollo.lsc.vsc.edu Height Distance (m)

  8. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  9. Traditional Wind Model • Solar Heating Causes Winds. • Wind is caused by differences in pressure resulting from differential heating of the earth’s surface.

  10. Pressure and Temperature http://www.physicalgeography.net/fundamentals/7o.html

  11. Geostrophic Wind ww2010.atmos.uiuc.edu

  12. Thermal Wind Equation vg – Geostrophic wind vT – Thermal wind f – Coriolis parameter R – Ideal gas law constant

  13. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  14. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  15. Equations of State for Moist Air Moist air as a whole Water Vapor Dry Air P - pressure N – molar density R – molar gas constant T – absolute temperature

  16. Relative Molar Density of Water Vapor The process of condensation in the rising air should be reflected through the changes in:

  17. Molar rate of condensation per unit volume: (1) - velocity vector directed along the temperature gradient toward the lower temperature - vertical velocity - horizontal velocity vertical condensation rate Gravitational expansion Horizontal expansion

  18. Coordinate System w0,u0 is considered to be the isothermal plane whereas w,u is the horizontal plane.

  19. Stationary Continuity Equation (2) • If we consider: (3) • And the conservation of mass for dry air: (4)

  20. We can conclude that: • If we assume an isothermal plane, molar density does not change. (5) (6)

  21. We can combine (1) and (5) with a substitution from (6) to obtain: (7) (1) (5) (6)

  22. Compact Form: Using the definition for : (8) (9)

  23. Hydrostatic Equilibrium • Adiabatic ascent of moist saturated air • The only phase transition will be condensation in the vertical direction. • Looking strictly at isothermal horizontal plane:

  24. Adiabatic Ascent Parcel will not rise in a vertically isothermal atmosphere

  25. Adiabatic ascent with a temperature gradient applied in the vertical direction.

  26. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  27. Cylindrical Transformation: Using change of coordinates:

  28. Cylindrical Coordinates u(r) - radial velocity w(r) – vertical velocity v(r) – tangential velocity

  29. U - The velocity of hurricane movement as a whole also known as translation speed.

  30. Theoretical radial and tangential velocity vs category 5 data set o – Data at different levels from twelve observed category 5 hurricanes.  - Median values of data sets. Data Analysis from Makarieva and Gorshkov

  31. Theoretical Pressure profile vs Holland’s profile Theoretical values for pressure vs Holland’s profile values (empirical).

  32. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  33. Forestry and Precipitation • “The biotic pump is a mechanism in which natural forests create and control ocean-to-land winds, bringing moisture to all terrestrial life.” • -Gorshkov and Makarieva 2012

  34. Overview • Basic Meteorological Assumptions • Traditional Wind Model • Condensation Induced Winds • Derivation • Experimental Evidence • Greater Implications • Future Research

  35. Future Research • Add a condensation component from the biotic pump theory to a climate model.

  36. Acknowledgements • Jennifer Fowler – Mentor and all around awesome lady. • Makarieva and Gorshkov – Theory Authors. • Alex Bulmahn • MSGC (Montana Space Grant Consortium) • University of Montana Physics and Astronomy Department

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