Author(s)

Thorstein O. Seim¹, Borgar T. Olsen^2,3

¹Former Senior Research Scientist at Nycomed Pharma, Oslo, Norway.
²Former Research Fellow at Max-Planck-Institute for Physiological and Clinical Research, Munich, Germany.
³Former Research Scientist at Telenor (Televerkets) Research Department, Fornebu, Norway.

The Greenhouse Effect was simulated in a laboratory setup, consisting of a heated ground area and two chambers, one filled with air and one filled with air or CO₂. While heating the gas the temperature and IR radiation in both chambers were measured. IR radiation was produced by heating a metal plate mounted on the rear wall. Reduced IR radiation through the front window was observed when the air in the foremost chamber was exchanged with CO₂. In the rear chamber, we observed increased IR radiation due to backscatter from the front chamber. Based on the Stefan Boltzmann’s law, this should increase the temperature of the air in the rear chamber by 2.4 to 4 degrees, but no such increase was found. A thermopile, made to increase the sensitivity and accuracy of the temperature measurements, showed that the temperature with CO₂ increased slightly, about 0.5%.

Greenhouse Effect, Radiative Forcing, CO2 Backscatter, IR Radiation

Seim, T. and Olsen, B. (2020) The Influence of IR Absorption and Backscatter Radiation from CO₂ on Air Temperature during Heating in a Simulated Earth/Atmosphere Experiment. Atmospheric and Climate Sciences, 10, 168-185. doi: 10.4236/acs.2020.102009.