Although Energy be measured as commodity (1.0 l of gasoline, 1.0 kWh of electricity, etc.), the Energy is a set of primary sources and secondary forms of energy which give support to the broad diversity of life as current known and to the human welfare. For example, without the energy of the sun, photosynthesis would not be possible. As a consequence, it would not have possible the biomass of economic cycle and its conversion for offering, for example, secondary forms of energy such as heat, electricity, mechanical energy, chemical energy of foods and so on. It also would not be possible to regulate the hydrologic cycle and its secondary energy forms. Without energy equilibrium inside the Earth greenhouse, the life conditions are altered and ripped apart; in the long term would be extinguished.

In the face of the irrevocable physic laws, the current energy deposits and fluxes in the biosphere only are available to economic development and human welfare after successive and complex extraction, conversion, transport, storage and final use processes. Population growth, spatial extension and irregularity in the distribution and dispersion of the charge (industrial, transportation, residential uses, etc.) provoke unavoidable thermodynamic effects of losses, which result in much lower final useful energy regarding to the initial provided by the biosphere. According to thermodynamics, each energy balance corresponds to another entropy balance.

Scientific evidences indicate progressive exhaustion in the capacity of natural cycles to renew the entropic residues of energy systems themselves. This entropy presses and breaks the resilience of bio-geo-ecological mosaic on which the human organizations live. In planetary level, this entropy induces climate change. In this global environment, energy systems face large technological, economic and regulatory challenges for their implementation and operation.