Energy carrier

According to ISO 13600, an energy carrier is either a substance (energy form) or a phenomenon (energy system) that can be used to produce mechanical work or heat or to operate chemical or physical processes.

In the field of Energetics, however, an energy carrier corresponds only to an energy form (not an energy system) of energy input required by the various sectors of society to perform their functions.[1]

Examples of energy carriers include liquid fuel in a furnace, gasoline in a pump, electricity in a factory or a house, and hydrogen in a tank of a car.

Note that coal, oil and natural gas are primary energy sources which are extracted from the earth (fossil fuels). Natural uranium is also a primary energy source extracted from the earth but does not come from the decomposition of organisms (mineral fuel).

Contents

Definition according to ISO 13600

According to ISO 13600, an energy carrier is either a substance or a phenomenon that can be used to produce mechanical work or heat or to operate chemical or physical processes. It is any system or substance that contains energy for conversion as usable energy later or somewhere else. This could be converted for use in, for example, an appliance or vehicle. Such carriers include springs, electrical batteries, capacitors, pressurized air, dammed water, hydrogen, petroleum, coal, wood, and natural gas.

ISO 13600 series (ISO 13600, ISO 13601 and ISO 13602) are intended to be used as tools to define, describe, analyse and compare technical energy systems (TES) at micro and macro levels [2]:

Definition within the field of Energetics

Energy carriers are various energy forms of energy input required by the various sectors of society to perform their functions.[1]

Energy carriers (EC) are produced by the energy sector using primary energy sources (PES). The distinction between "Energy Carriers" and "Primary Energy Sources" is extremely important since these two labels refer to energy forms of different quality so that they cannot be aggregated: 1 megajoule (MJ) of EC is not the same as 1 MJ of PES.

Related topics

See also

References

  1. ^ a b Giampietro, Mario; Mayumi, Kozo (2009). The Biofuel Delusion: The Fallacy of Large Scale Agro-Biofuels Production. Earthscan, Taylor & Francis group. pp. 336. ISBN 978-1844076819. 
  2. ^ http://www.internationalenergyworkshop.org/pappdf/Grob.pdf

External links