Twenty-first century global anthropogenic warming convective model

Abstract

As today’s world is rapidly trending to man-made or anthropogenic alternative energy while the total energy being utilized is increased, it is important to understand what happens to the energy generated and dissipated. The new energy conversions are mainly for electricity and for heating, cooling, lighting or chemical and metallurgical processes, all of which create thermal wastes, which are independent of the fuel or alternative energy. Present correlations will become obsolete in explaining atmospheric temperature variations when more and more renewable energy is used to create electricity, which in turn will continue the thermal emissions into the future, leaving only a small fraction as converted non-thermal stored energy. This is being addressed by a convective model in this paper that discusses the effect of thermal waste storage in the atmosphere – which leads to climatic change due to excess precipitation. The model shows that evapotranspiration changes play a major role in the atmospheric air mass constrained climate change. The extent of global mean temperature increase is a function of global population which increases thermal wastes or a function of sinusoidal variances in solar influx as noted by several scientists; the excess precipitation computations will fit any of the global mean temperature assumptions – from small to large increases.