Energy Technology

from Wikipedia, the free encyclopedia

The power engineering is an engineering science that is interdisciplinary with the issue of energy is concerned. The main content is the technologies for the efficient, safe, environmentally friendly and economical production, conversion, transport, storage and use of energy in all its forms. The focus is on striving to achieve a high yield of useful energy , i.e. H. the efficiency to maximize while minimizing the negative side effects on humans, nature and the environment.

Due to the paramount importance that energy has for people and their environment, energy technology is also very important. The use of scarce resources for energy use was and is often the reason for political conflicts or even wars. The exploitation of these resources has negative consequences for the environment and nature, from local disruption of ecosystems to global climate change . Energy technology is therefore closely linked with the energy industry , energy policy and environmental protection .

Demarcation from neighboring areas

As an interdisciplinary science, power engineering is u. a. closely related to the following related fields:

Fields of power engineering

Energy technology can be roughly divided into the following subject areas, whereby the boundaries are often not sharply drawn:

Power plant technology

Construction of a steam power plant
→ Main articles: power plant technology , electricity generation

Power plant technology occupies a special position within energy technology, because this term is quite unspecific and should rather be seen as a generic term.

In general, power plant technology is understood to mean the entire technology for generating electricity in any type of power plant . This encompasses a field almost as broad as energy technology as a whole.

More specifically, power plant technology is traditionally understood to mean the technology of classic, fired steam power plants , with a focus on firing , steam boilers and turbo sets . Even this more limited field still includes many of the subjects mentioned below.

Electrical Power Engineering

High-voltage lines for the transport of electrical energy

The electric power engineering is a relatively isolated sub-region within the energy technology, mainly on the part of electrical engineering is covered.

The electrical energy technology is concerned with the production and use of electrical energy (colloquially power or electricity ), and their conversion and distribution in the high-voltage interconnections.

The main contents are (especially for high voltage ):

thermodynamics

→ Main article: Thermodynamics

The thermodynamics (thermodynamics) deals with the basic laws of energy conversion, after which the energy process engineering and fluid power engineering work. This theoretical science is a branch of classical physics .

Energy process engineering

Grate firing

Energy process engineering is a field from process engineering , closely interlinked with chemistry and environmental technology . The focus here is on the thermal and chemical processes of energy conversion.

Thermal engineering

In the broadest sense, heat engineering deals with all processes related to heat : its extraction / generation, its transmission and its use. This rather broad term is sometimes equated with thermodynamics and also used as a generic term for energy process engineering, which includes combustion technology, etc.

Combustion technology

Combustion Engineering discussed the construction, operation and optimization of furnaces of all kinds ( burner , grate furnaces , fluidised bed furnaces , incinerators , ...) with a view to energy efficiency, the low-emission combustion and operational safety.

Fuel technology

Fuel technology deals with the extraction, mechanical, thermal and chemical processing and refining of all types of fuels with a view to economical and environmentally friendly combustion. Depending on the origin of the fuels, process engineering works with very different partners: in the case of fossil fuels, with specialists from mining and mining ; in the case of biogenic fuels with agricultural engineering ; in the thermal use of residues and secondary fuels with disposal technology .

Exhaust gas cleaning technology

Exhaust gas or flue gas cleaning technology is a specialist field that has set itself the goal of removing air pollutants as much as possible from the exhaust gases or flue gases resulting from combustion . Various mechanical, thermal and chemical cleaning processes are used here. Exhaust gas cleaning technology is a classic field of activity in process engineering and chemical engineering .

Boiler and energy equipment construction

The energy-related boiler and apparatus engineering deals with the design, construction and operation of steam boilers and other thermal apparatus such as heat exchangers , condensers, etc. In this area, knowledge from the areas of heating and combustion technology flows together with that from design theory , technical mechanics (strength and pressure vessel calculation ) and materials science .

Building heating technology

Building heating technology is a special field of energy technology within building technology . The processes dealt with are basically the same as in the above. Subjects (heat engineering, boiler construction, ...), but one size smaller than in large-scale industrial use, optimized for the domestic sector.

Power engineering

Steam turbine - turbine generator

Energy engineering is a field of mechanical engineering that deals with the design, construction, construction and operation of machines that are used for energy conversion. These are primarily the fluid energy machines , i.e. internal combustion engines, turbines, pumps, fans, etc. Due to the high thermal and mechanical loads with simultaneously high demands on operational safety, such machines are among the challenges for mechanical engineering.

Fluid machine construction

Flow machines are extremely important for energy technology both as a power machine (turbine) and as a work machine (pump). Steam, gas, water and wind turbines generate the lion's share of the electrical energy generated worldwide. Pumps, fans and compressors are also indispensable in most power plants , be it for the supply of combustion air to a furnace, as a feed water pump for a steam boiler or as a turbo compressor in front of a gas turbine.

Engine construction

Piston internal combustion engines are important energy converters as a drive for means of transport, but also for power generation in CHPs and power units .

Nuclear technology

Unterweser nuclear power plant

Nuclear technology, also known as nuclear technology, deals with the special technologies that are required for generating energy from nuclear energy . Above all, this includes reactor technology , which deals with the nuclear reactor , the heart of every nuclear power plant , but also the other, highly specialized technology of such a power plant. Nuclear technology also includes technologies for the processing of nuclear fuel and for the processing and disposal of radioactive waste. Here, the energy technology works closely with the specialists from nuclear physics , nuclear chemistry and radiation protection .

In Germany, due to political discussions and in view of the decision to phase out nuclear power , this technology is a subject threatened with extinction; From a global point of view, however, it remains of great importance.

A special area within nuclear technology is nuclear fusion , a special area of nuclear physics . High expectations are placed on this technology for the future; however, it is currently still in the research and development stage.

Sustainable energy technology

Mainly because of the special importance of energy technology for the environment, world climate and the future of mankind mentioned in the introduction, there is a strong interest in the use of regenerative energy sources , so that this branch has developed into an almost independent subject. If you look into the details, you can see that the different variants of renewable energy technology use very different technologies and that the branch is thus just as inhomogeneous and diverse as energy technology as a whole:

Solar technology
Photovoltaic power plant

→ Main articles: solar technology , solar energy

In solar technology , d. H. The use of solar energy is basically divided into:

In connection with photovoltaics, the electrolytic production of hydrogen from water in the context of hydrogen technology is important.

Wind power

Wind turbines use the energy of atmospheric currents. Such a system arises from the cooperation of steel construction / civil engineers (tower structure), aerodynamicists / fluid mechanics (wings), mechanical engineers (gears, bearings, etc.) and electrical engineers (generator, power electronics).

Geothermal energy

Geothermal energy is the use of geothermal energy for heating and generating electricity.

Hydropower
Assembly of Pelton turbines

The use of hydropower (classic hydropower plants on dammed rivers, wave power plants , tidal power plants ) is primarily a domain of civil engineering , more precisely hydraulic engineering and coastal engineering , as well as hydrology and geology . The construction of the mostly necessary structures ( canals , dams , dams , tunnels , ...) for the utilization of rivers, reservoirs and seas falls into these specialist areas .

As a flow machine, the water turbine is a component of energy engineering (see above). The electrical generators for water power, which are a special design due to the low speed of water turbines, come from electrical machine manufacturers.

Bioenergy technology

Bioenergy technology deals with the extraction, refinement and use of biogenic fuels. The producers of energy crops and other biomass from biology, agriculture and forestry work together with conventional fuel technology (see above). The combustion takes place in furnaces and internal combustion engines that have been adapted for the use of biogenic fuels.

Ethanol and methanol or the hydrogen obtained from them can also be used in fuel cells to generate electricity.

education and study

Since energy technology is a broad field, there are only a few universities and technical colleges that offer integrated courses of study that cover the entire field. Instead, energy technology is typically offered as a specialization within the adjacent sciences (electrical engineering, mechanical engineering, process engineering, ...). The same applies to apprenticeships in the field of energy technology.

BERUFENET and KURSNET of the Federal Employment Agency provide information on study and training opportunities in the field of energy technology .

See also

Portal: Energy  - Overview of Wikipedia content on the subject of energy
Wikiquote: Energy  Quotes

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  1. http://www.berufenet.arbeitsagentur.de/
  2. http://www.kursnet.arbeitsagentur.de

Web links

Wiktionary: Energy  - explanations of meanings, word origins, synonyms, translations