02604nam 2200565Ia 450 991100483170332120200520144314.01-282-64617-697866126461711-85617-934-6(CKB)1000000000798775(EBL)535073(OCoLC)555606036(SSID)ssj0000332045(PQKBManifestationID)12116427(PQKBTitleCode)TC0000332045(PQKBWorkID)10330590(PQKB)11087356(MiAaPQ)EBC535073(EXLCZ)99100000000079877520090715d2010 uy 0engur|n|---|||||txtccrNuclear corrosion modeling /Roy CastelliAmsterdam Butterworth-Heinemannc20101 online resource (xvii, 195 p.) illDescription based upon print version of record.1-85617-802-1 Includes bibliographical references and index.1. The Corrosion Source -- 2. Framing the Vision of the General Equation Set -- 3. Building Block Fluxes for the General Equation Set -- 4. The General Equation Set -- 5. Framing the Vision of the Media Equation Set -- 6. The Media Equation Set -- 7. A Solution Method -- 8. Defining the Input Architecture for NOC -- 9. Program Architecture -- 10. Pre- and Postprocessing (the GUI Interface) -- 11. Design ApplicationsCorrosion in nuclear power plants cause reductions in efficiency and increases in deposit build-up on plant surfaces, making for expensive maintentance and potential radiological health hazards. This book guides studies to predict and minimize corrosion, thus making nuclear power safer and more cost effective. Too often, reliance on empirical models and on-site testing of existing plants makes study and prediction of corrosive effects in nuclear reactors into a pricey and lengthy process.Nuclear reactorsCorrosionNuclear reactorsCorrosionMathematical modelsCorrosion and anti-corrosivesNuclear power plantsNuclear reactorsCorrosion.Nuclear reactorsCorrosionMathematical models.Corrosion and anti-corrosives.Nuclear power plants.621.48332Castelli Roy1823807MiAaPQMiAaPQMiAaPQ9911004831703321Nuclear corrosion modeling4390766UNINA