Difference between revisions of "Electricity"

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===Solar energy===
 
===Solar energy===
Photovoltaics is the direct conversion of [[photons]] to electricity.  On Mars, this has already been used extensively for most of the solar probes and rovers.
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Photoelectricity is the direct conversion of [[photons]] to electricity.  On Mars, this has already been used extensively for most of the solar probes and rovers.
  
 
*[[Solar panel|Solar Panel]]
 
*[[Solar panel|Solar Panel]]
  
=== Nuclear energy ===
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===Nuclear energy===
 
Nuclear reactions in nuclear materials produces heat, that can be converted into electricity either directly or using thermal processes.
 
Nuclear reactions in nuclear materials produces heat, that can be converted into electricity either directly or using thermal processes.
  
==== Thermoelectric generators ====
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====Thermoelectric generators====
 
A [[thermoelectric generator]] produces electricity from differences in thermal energy between two or more areas.
 
A [[thermoelectric generator]] produces electricity from differences in thermal energy between two or more areas.
  
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*[[Thermocouple]]
 
*[[Thermocouple]]
  
==== Photovoltaics from very hot cores (fourth generation nuclear) ====
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====Photovoltaics from very hot cores (fourth generation nuclear)====
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This is the same process as photoelectricity from the sun but gets its photons from a very hot nuclear reactor core that liberates most of its energy in the form of photons.
  
==== MHD generators ====
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====MHD generators====
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Magnetohydrodynamic generators use the passage of a hot conducting gas in a magnetic field to generate an electrical current.  MHD generators are generally considered as a topping stage to conventional turbogenerators.
  
==== Turbogenerators ====
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====Turbogenerators====
 
A combination of a turbine and a generator used to produce electricity.  The generator uses the interaction between magnetic fields and conductors to generate an electrical current.
 
A combination of a turbine and a generator used to produce electricity.  The generator uses the interaction between magnetic fields and conductors to generate an electrical current.
  

Revision as of 16:41, 20 April 2019

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Electricity is the general term used to describe a number of electrical phenomena, such as Electrical power, electrical current and electric potential. It is associated with magnetism. It plays an important part in almost every modern technology. Electrical power can be transmitted easily a distance via conductors, such as metallic cables. A settlement on Mars cannot be imagined without electricity.

Generation

Electrical power can be generated from a number of energy sources.

Solar energy

Photoelectricity is the direct conversion of photons to electricity. On Mars, this has already been used extensively for most of the solar probes and rovers.

Nuclear energy

Nuclear reactions in nuclear materials produces heat, that can be converted into electricity either directly or using thermal processes.

Thermoelectric generators

A thermoelectric generator produces electricity from differences in thermal energy between two or more areas.

Photovoltaics from very hot cores (fourth generation nuclear)

This is the same process as photoelectricity from the sun but gets its photons from a very hot nuclear reactor core that liberates most of its energy in the form of photons.

MHD generators

Magnetohydrodynamic generators use the passage of a hot conducting gas in a magnetic field to generate an electrical current. MHD generators are generally considered as a topping stage to conventional turbogenerators.

Turbogenerators

A combination of a turbine and a generator used to produce electricity. The generator uses the interaction between magnetic fields and conductors to generate an electrical current.

Mechanical Generators

The interactions between moving magnets or electromagnets can be used to produce electricity.

Piezoelectrics

Piezoelectricity is the generation of electricity as a direct result of mechanical deformation.

Electrochemistry

Uses of Electricity

Electricity can be directly used to produce

  • Heat
  • Light
  • Movement of machine parts.

Electrical energy can be directly stored in capacitors and inductors, but only in very small amounts. Large amounts can be stored indirectly in other energy forms.

Significance for a Martian colony

Inevitabilities

For some settlement applications electricity can not be avoided. This is true for radio link and night time lighting.

Alternatives

Although there is some comfort in using electricity for a variety of applications, there are on the other hand some disadvantages to be considered. The storage of large amounts of electrical energy is a problem. Moreover, every transformation causes some loss of energy. The following alternatives may provide an advantage:

  • Movement of machine parts can alternatively be created by muscle work, pneumatics or hydraulics. Muscle work is, for a certain degree, always available. Combination with physical exercise should be considered. Compressed-air is an easy storage for pneumatic energy.
  • Heating can be avoided with a thick thermal insulation. At best the human metabolism and the lighting cause enough heat for a comfortable room temperature.
  • Automation can be implemented with pneumatics.

See Also