Abstract
In the USSR, FRG, United States, Japan, France, Italy and other countries, broad programs of research and development have been adopted in the area of hydrogen power engineering. Broad and multifaceted development of hydrogen power engineering and technology is expected in no earlier than the first quarter of the twenty-first century. However, the rise in prices for liquid and gaseous fuel and the rise in demand for H/sub 2/ of its traditional consumers can make it expedient to develop large-scale production of H/sub 2/ and gradual displacement of natural liquid and gaseous fuels from the processes of oil refining, synthesis of methanol and ammonia, metallurgical production of nuclear fuel and coal even before the end of the twentieth century. A natural system of energy source-production block for obtaining the energy carrier (H/sub 2/) can make it possible in the last quarter of the twentieth century to solve the problems associated with creating large autonomous energy-technological complexes which do not require hydrocarbon fuel for production of energy and products of chemical synthesis, oil refining, metallurgy and others. In this sense, even now the question must be solved of creating energy-technology which uses as the main energy resources nuclear energy and coal,
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Citation Formats
Shpil'rayn, E E, and Malyshenko, S P.
Some aspects of the development of hydrogen power engineering and technology.
USSR: N. p.,
1980.
Web.
Shpil'rayn, E E, & Malyshenko, S P.
Some aspects of the development of hydrogen power engineering and technology.
USSR.
Shpil'rayn, E E, and Malyshenko, S P.
1980.
"Some aspects of the development of hydrogen power engineering and technology."
USSR.
@misc{etde_6126862,
title = {Some aspects of the development of hydrogen power engineering and technology}
author = {Shpil'rayn, E E, and Malyshenko, S P}
abstractNote = {In the USSR, FRG, United States, Japan, France, Italy and other countries, broad programs of research and development have been adopted in the area of hydrogen power engineering. Broad and multifaceted development of hydrogen power engineering and technology is expected in no earlier than the first quarter of the twenty-first century. However, the rise in prices for liquid and gaseous fuel and the rise in demand for H/sub 2/ of its traditional consumers can make it expedient to develop large-scale production of H/sub 2/ and gradual displacement of natural liquid and gaseous fuels from the processes of oil refining, synthesis of methanol and ammonia, metallurgical production of nuclear fuel and coal even before the end of the twentieth century. A natural system of energy source-production block for obtaining the energy carrier (H/sub 2/) can make it possible in the last quarter of the twentieth century to solve the problems associated with creating large autonomous energy-technological complexes which do not require hydrocarbon fuel for production of energy and products of chemical synthesis, oil refining, metallurgy and others. In this sense, even now the question must be solved of creating energy-technology which uses as the main energy resources nuclear energy and coal, as well as energy-carrier and raw material, H/sub 2/ and artificial fuels on its basis. In addition, development of large energy systems based on nuclear energy and coal as the energy sources and which include different-characteristic and numerous consumers results in the need already in the near future to use artificial fuels based on H/sub 2/ and H/sub 2/ in power engineering as the energy carriers and energy accumulators. This will make it possible to construct a more flexible system adapted to the consumers which does not depend on the type of energy sources.}
journal = []
volume = {3}
journal type = {AC}
place = {USSR}
year = {1980}
month = {Jan}
}
title = {Some aspects of the development of hydrogen power engineering and technology}
author = {Shpil'rayn, E E, and Malyshenko, S P}
abstractNote = {In the USSR, FRG, United States, Japan, France, Italy and other countries, broad programs of research and development have been adopted in the area of hydrogen power engineering. Broad and multifaceted development of hydrogen power engineering and technology is expected in no earlier than the first quarter of the twenty-first century. However, the rise in prices for liquid and gaseous fuel and the rise in demand for H/sub 2/ of its traditional consumers can make it expedient to develop large-scale production of H/sub 2/ and gradual displacement of natural liquid and gaseous fuels from the processes of oil refining, synthesis of methanol and ammonia, metallurgical production of nuclear fuel and coal even before the end of the twentieth century. A natural system of energy source-production block for obtaining the energy carrier (H/sub 2/) can make it possible in the last quarter of the twentieth century to solve the problems associated with creating large autonomous energy-technological complexes which do not require hydrocarbon fuel for production of energy and products of chemical synthesis, oil refining, metallurgy and others. In this sense, even now the question must be solved of creating energy-technology which uses as the main energy resources nuclear energy and coal, as well as energy-carrier and raw material, H/sub 2/ and artificial fuels on its basis. In addition, development of large energy systems based on nuclear energy and coal as the energy sources and which include different-characteristic and numerous consumers results in the need already in the near future to use artificial fuels based on H/sub 2/ and H/sub 2/ in power engineering as the energy carriers and energy accumulators. This will make it possible to construct a more flexible system adapted to the consumers which does not depend on the type of energy sources.}
journal = []
volume = {3}
journal type = {AC}
place = {USSR}
year = {1980}
month = {Jan}
}