Rotating Convection Driven by Differential Bottom Heating and Its Application.

Abstract

A laboratory convection experiment was performed as a model of the thermohaline circulation of the oceans with a rotating square container. Differential beating was applied along the bottom of the container using an electrical heater and a constant temperature cooling plate. The focus was given to scaling laws for meridional heat transport and a thermal boundary layer. Comparisons with earlier studies suggest that the heat transport of the experiment was mostly due to the meridional geostrophic flows and minor contribution due to the friction at the bottom. The same applies to the thermal boundary layer. The scaling law from the experiment (geostrophic scaling law) was applied to a two box model to study the stability of thermohaline circulation. The model shows that if the effects of the Earth's rotation are included, it is less likely to have a thermohaline catastrophic transition under the present conditions.

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Document Details

Document Type
Technical Report
Publication Date
Sep 01, 1996
Accession Number
ADA325958

Entities

People

  • Young-gyu Park

Organizations

  • Massachusetts Institute of Technology

Tags

Communities of Interest

  • Advanced Electronics
  • Air Platforms
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Boundary Layer
  • Climate Change
  • Convection
  • Creep
  • Flow Fields
  • Flow Visualization
  • Geography
  • Heat Transfer
  • Isotherms
  • Ocean Currents
  • Oceanography
  • Sea Surface Temperature
  • Surface Temperature
  • Temperature Gradients
  • Three Dimensional
  • Topography
  • Two Dimensional

Readers

  • Ocean-Atmosphere Mesoscale Modeling, Data Assimilation, and Flux Boundary Layers
  • Plasma Physics / Magnetohydrodynamics
  • Thermal Physics or Thermal Science.