Calculating solar equivalence ratios of the four major heat-producing radiogenic isotopes in the Earth's crust and mantle

Siegel, Eric; Brown, Mark T.; Vilbiss, Chris De; Arden, Sam

doi:10.1016/j.ecolmodel.2016.04.002

Cited by 3 publications

(1 citation statement)

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“…gravitational transformities of these two cycles compose the gravitational transformity of sunlight (7.57E−04 gej J −1 ). That is, 1321 J of solar radiation are yielded for every joule of gravitational energy supplied (Siegel et al, 2016). 3…”

Section: Gravity Produces Solar Radiationmentioning

confidence: 99%

Computing the geobiosphere emergy baseline: A novel approach

Vilbiss

Brown

Siegel

et al. 2016

Ecological Modelling

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a b s t r a c tWe demonstrate a new and novel approach to calculate Earth's geobiosphere emergy baseline (GEB). In this method we use gravitational potential energy dissipated in the generation of Earth's main renewable energy sources. From this gravitational perspective, we recognize three refinements to our understanding of Earths driving energies. First we acknowledge the recent literature suggests that Earth's geothermal energy is from two separate sources, decay of radioisotopes and primordial heat, thus warranting separate solar equivalence ratios (SERs). Second, tidal energy dissipation can be viewed as the loss of Earth's rotational kinetic energy (KE), due to gravitational interaction between Earth/Moon/Sun and frictional forces in Earth's oceans. Seen in this way we draw an equivalence between loss of Earth rotational KE and tidal energy dissipated. Third, Earth's rotational KE and primordial heat are coupled processes of the gravitationally induced accretion of Earth.The four sources of available energy to the geobiosphere, solar radiation, tidal energy dissipation, primordial heat, and radiogenic heat, are expressed as a ratio of gravitational emergy needed to produce them. After all four sources are expressed by their gravitational transformities, solar equivalences are computed by dividing their gravitational transformity by the gravitational transformity of solar radiation, resulting in solar equivalent ratios. Using solar equivalences, we combine the four sources to express the emergy driving all planetary phenomena. The method yields four different baselines depending on the allocation procedure used to assign gravitational exergy of Earth's accretion to it is rotational KE and primordial heat. The GEBs ranged between 11.1E+24 seJ J −1 and 13.8E+24 seJ J −1 .

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Section: Gravity Produces Solar Radiationmentioning

confidence: 99%