Exploring the Effects of Atmospheric Forcings on Evaporation: Experimental Integration of the Atmospheric Boundary Layer and Shallow Subsurface

Overview

This article presents a protocol for developing a soil tank apparatus interfaced with a climate-controlled wind tunnel to study atmospheric effects on evaporation. The setup allows for continuous in situ measurement of environmental conditions.

Key Study Components

Area of Science

• Environmental Science
• Soil Science
• Climate Studies

Background

• The study focuses on understanding evaporation processes.
• Atmospheric forcings play a critical role in evaporation rates.
• Field studies often lack controlled conditions for accurate data.
• This apparatus aims to bridge that gap.

Purpose of Study

• To construct a soil tank for experimental evaporation studies.
• To interface the soil tank with a wind tunnel for controlled experiments.
• To gather accurate data under controlled boundary conditions.

Methods Used

• Construction of a two-dimensional bench scale soil tank.
• Development of a climate-controlled wind tunnel.
• Instrumentation with sensors for measuring soil moisture, temperature, humidity, and wind speed.
• Packing the soil tank with soil and water to initiate experiments.

Main Results

• The apparatus allows for precise control of atmospheric conditions.
• Continuous measurement of environmental parameters is achieved.
• Data generated can inform about evaporation under various conditions.
• Results can be compared to field data for validation.

Conclusions

• The developed apparatus is effective for studying evaporation.
• Controlled experiments yield reliable data for research.
• This method can enhance understanding of environmental processes.

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