View all text of Part E [§ 16271 - § 16282]
§ 16271. Nuclear energy
(a) Mission
(1) In general
(2) ConsiderationsThe programs carried out under paragraph (1) shall take into consideration the following objectives:
(A) Providing research infrastructure to promote scientific progress and enable users from academia, the National Laboratories, and the private sector to make scientific discoveries relevant for nuclear, chemical, and materials science engineering.
(B) Maintaining nuclear energy research and development programs at the National Laboratories and institutions of higher education, including infrastructure at the National Laboratories and institutions of higher education.
(C) Providing the technical means to reduce the likelihood of nuclear proliferation.
(D) Increasing confidence margins for public safety of nuclear energy systems.
(E) Reducing the environmental impact of activities relating to nuclear energy.
(F) Supporting technology transfer from the National Laboratories to the private sector.
(G) Enabling the private sector to partner with the National Laboratories to demonstrate novel reactor concepts for the purpose of resolving technical uncertainty associated with the objectives described in subparagraphs (A) through (F).
(b) DefinitionsIn this part:
(1) Advanced nuclear reactorThe term “advanced nuclear reactor” means—
(A) a nuclear fission reactor, including a prototype plant (as defined in sections 50.2 and 52.1 of title 10, Code of Federal Regulations (or successor regulations)), with significant improvements compared to reactors operating on December 27, 2020, including improvements such as—
(i) additional inherent safety features;
(ii) lower waste yields;
(iii) improved fuel and material performance;
(iv) increased tolerance to loss of fuel cooling;
(v) enhanced reliability or improved resilience;
(vi) increased proliferation resistance;
(vii) increased thermal efficiency;
(viii) reduced consumption of cooling water and other environmental impacts;
(ix) the ability to integrate into electric applications and nonelectric applications;
(x) modular sizes to allow for deployment that corresponds with the demand for electricity or process heat; and
(xi) operational flexibility to respond to changes in demand for electricity or process heat and to complement integration with intermittent renewable energy or energy storage;
(B) a fusion reactor; and
(C) a radioisotope power system that utilizes heat from radioactive decay to generate energy.
(2) Commission
(3) Fast neutron
(4) National Laboratory
(A) In general
(B) Limitation
(5) Neutron flux
(6) Neutron sourceThe term “neutron source” means a research machine that provides neutron irradiation services for—
(A) research on materials sciences and nuclear physics; and
(B) testing of advanced materials, nuclear fuels, and other related components for reactor systems.
(Pub. L. 109–58, title IX, § 951, Aug. 8, 2005, 119 Stat. 884; Pub. L. 115–248, § 2(a), Sept. 28, 2018, 132 Stat. 3154; Pub. L. 116–260, div. Z, title II, § 2002, Dec. 27, 2020, 134 Stat. 2459; Pub. L. 117–58, div. D, title X, § 41002(b)(1), Nov. 15, 2021, 135 Stat. 1127.)