SN Pelykh, MV Maksimov, GT Parks - Nuclear Engineering and Design, 2013 - Elsevier
A method for VVER-1000 fuel rearrangement optimization that takes into account both cladding durability and fuel burnup and which is suitable for any regime of normal reactor …
This monograph highlights pertinent problems in nuclear fuel optimization. It shows that the current approach does not allow us to predict the synergic effects leading to fuel-related …
SN Pelykh - Nuclear Engineering and Design, 2021 - Elsevier
A review of the calculation results obtained in 2008–2020, using the creep energy theory (CET) criterion (CET-criterion) of fuel element cladding failure, is given and the contradicting …
SN Pelykh - Праці Одеського політехнічного університету, 2012 - irbis-nbuv.gov.ua
SN Pelykh. A model of fuel rearrangement optimization for a VVER-1000 cycling unit considering reactor power growth up to 110%. Considering both fuel cladding durability and …
SN Pelykh, MV Maksimov - Current Problems in Nuclear Physics and …, 2012 - academia.edu
A VVER-1000 fuel element (FE) cladding failure estimation method based on creep energy theory (CET-method) is physically grounded. Using CET-method, the VVER-1000 regime …
Используя энергетический вариант теории ползучести (ЭВТП), ЭВТП-метод расчета поврежденности оболочки твэла, а также критериальную модель эффективности …