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House subcommittee OKs six nuclear permitting reform bills
The U.S. House Energy and Commerce Committee’s Subcommittee on Energy introduced six nuclear permitting reform bills back in June. The mostly bipartisan bills returned to the subcommittee on Tuesday for markups—and with strong backing from both sides of the aisle.
Despite some lingering concerns in areas like federal transparency, the role of the Advisory Committee on Reactor Safeguards (ACRS), and staff attrition in the Nuclear Regulatory Commission, the subcommittee advanced all six pieces of legislation to the full committee with bipartisan support.
S. K. Gupta, M. A. Prasad
Nuclear Science and Engineering | Volume 70 | Number 2 | May 1979 | Pages 192-200
Technical Paper | doi.org/10.13182/NSE79-A19652
Articles are hosted by Taylor and Francis Online.
A semi-analytical technique making use of a set of coupled integral equations has been developed for solving problems in electron transport. This method is applicable to one-dimensional finite systems. The flux and source density are expanded in Fourier series, and a set of integral equations relating the Fourier coefficients is derived. This set of coupled equations is solved by iteration. Dose distributions and transmitted energy spectra have been obtained for plane perpendicular and point isotropic sources. These compare well with earlier calculations for both low- and high-Z materials.