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Nuclear Science and Engineering, 1982
(1982). Nuclear Reactor Engineering. Nuclear Science and Engineering: Vol. 81, No. 3, pp. 484-485.
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(1982). Nuclear Reactor Engineering. Nuclear Science and Engineering: Vol. 81, No. 3, pp. 484-485.
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Advances in Nuclear Engineering [PDF]
Nature, 1958 Advances in Nuclear Engineering Proceedings of the Second Nuclear Engineering and Science Conference held at Philadelphia. Edited by John R. Dunning and Brice R. Prentice. Vol. 1: Pp. vii + 523. Vol. 2: Pp. vii + 581. (London and New York: Pergamon Press, 1957.) 147s. net each volume.
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Angewandte Chemie
DNAzyme-based fluorescence probes for imaging metal ions in living cells have received much attention recently. However, employing in situ metal ions imaging within subcellular organelles, such as nucleus, remains a significant challenge.
Ran Liu +7 more
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DNAzyme-based fluorescence probes for imaging metal ions in living cells have received much attention recently. However, employing in situ metal ions imaging within subcellular organelles, such as nucleus, remains a significant challenge.
Ran Liu +7 more
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1994
Publisher Summary This chapter focuses on nuclear engineering. Nuclear engineering shares with other branches of engineering, metallurgy, and chemistry a history of having been bred in war and subsequently applied in peace. It is the task of a nuclear engineer to exploit the energy of the nucleus to the benefit of humankind.
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Publisher Summary This chapter focuses on nuclear engineering. Nuclear engineering shares with other branches of engineering, metallurgy, and chemistry a history of having been bred in war and subsequently applied in peace. It is the task of a nuclear engineer to exploit the energy of the nucleus to the benefit of humankind.
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Nuclear Science and Engineering, 1982
Reviews text whose contents include a review of the basic nuclear processes and the use of these processes in commercial-type applications; uranium processing; thorium processing; zirconium and hafnium; properties of irradiated fuel; plutonium and other actinide elements; fuel reprocessing; radioactive waste management; light element isotope separation;
Ronald W. Glass, Robert Merriman
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Reviews text whose contents include a review of the basic nuclear processes and the use of these processes in commercial-type applications; uranium processing; thorium processing; zirconium and hafnium; properties of irradiated fuel; plutonium and other actinide elements; fuel reprocessing; radioactive waste management; light element isotope separation;
Ronald W. Glass, Robert Merriman
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Nuclear Engineering Fundamentals
Nuclear Science and Engineering, 1964(1964). Nuclear Engineering Fundamentals. Nuclear Science and Engineering: Vol. 20, No. 3, pp. 365-366.
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Nuclear Technology, 1975
Chemical engineers comprise a significant segment within the U. S. nuclear industry, yet few study nuclear subjects before they begin their careers. Nuclear chemical engineering is defined, then, as an arena for action rather than a field of knowledge.
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Chemical engineers comprise a significant segment within the U. S. nuclear industry, yet few study nuclear subjects before they begin their careers. Nuclear chemical engineering is defined, then, as an arena for action rather than a field of knowledge.
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Nonlocal fractal neutrons transport equation and its implications in nuclear engineering
Acta Mechanica, 2022R. El-Nabulsi, Waranont Anukool
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