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How does a radioisotope thermoelectric generator work?

How does a radioisotope thermoelectric generator work?

A radioisotope thermoelectric generator, or RTG, uses the fact that radioactive materials (such as plutonium) generate heat as they decay into non-radioactive materials. The heat used is converted into electricity by an array of thermocouples which then power the spacecraft.

What are the uses of radioisotope thermoelectric generator?

Radioisotope Thermoelectric Generators, or RTGs, provide electrical power for spacecraft by converting the heat generated by the decay of plutonium-238 (Pu-238) fuel into electricity using devices called thermocouples.

How are thermoelectric generators made?

Thermoelectric generators are solid-state heat engines made of pairs of p-type and n-type elements. The p-type elements are made of semiconductor materials doped such that the charge carriers are positive (holes) and Seebeck coefficient is positive.

What are thermoelectric diagram give its uses?

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Thermo-electric Diagram. A diagram indicating the change in potential difference for a fixed difference of temperature between different metals at different temperatures. It is laid out with rectangular co-ordinates. On one axis temperatures are laid off, generally on the axis of abscissas.

How long do radioisotope thermoelectric generators last?

Currently, a Multi-Mission Radioisotope Thermoelectric Generator (MMRTG, the RTG on the Curiosity rover) weighs 35.5 kilograms and has a life expectancy of 14 years. RTGs produce low neutron, beta, and gamma radiation compared to reactors.

What is the purpose of the MMRTG?

The design goals for the MMRTG include ensuring a high degree of safety, optimizing power levels over a minimum lifetime of 14 years, and minimizing weight.

How long does an MMRTG last?

14 years
The MMRTG is expected to operate for at least 14 years, significantly beyond Perseverance’s prime mission duration (at least one Mars year, or about two Earth years).