THE MAIN DIRECTIONS OF PSYCHOLOGICAL REHABILITATION OF ONСOGYNEСOLOGIC PATIENTS

Psychological rehabilitation of gynecological cancer patients is an important problem of modern medicine. Today, without the qualified psychological help is impossible to imagine the effectiveness of the therapeutic process in oncology. The use of modern methods of diagnosis and treatment has increased the life expectancy of patients. In turn, the use of these technologies have contributed to numerous complications and serious psychosocial disturbances seen in cancer patients. There is a need to change the approach to the recovery of patients by implementing the rehabilitation process of complex psycho programs aimed at the adaptation of the patients to the new conditions of life. The process of psychological rehabilitation it should be viewed as a set of individual and group psychotherapeutic interventions, the main purpose of which is to restore the cancer patient personal and social status, taking into account existing pathologies and restrictions. status, taking into account existing pathologies and restrictions. Thus, the provision of adequate psychotherapeutic assistance on the basis of oncological institutions and rehabilitation centers will improve quality and create favorable living conditions for patients in the community

The IAEA CRP on Studies of Advanced Reactor Technology Options for Effective Incineration of Radioactive Waste

In 2003, the IAEA has initiated the Coordinated Research Project (CRP) on ¿Studies of Advanced Reactor Technology Options for Effective Incineration of Radioactive Waste¿. The overall objective of the CRP, performed within the framework of IAEA¿s Nuclear Energy Department¿s Technical Working Group on Fast Reactors, is to increase the capability of Member States in developing and applying advanced technologies in the area of long-lived radioactive waste utilization and transmutation. Twenty institutions from 15 Member States and one international organization participated in this CRP. The CRP concentrated on the assessment of the dynamic behavior of various transmutation systems. The reactor systems investigated comprise critical reactors, sub-critical accelerator driven systems with heavy liquid metal and gas cooling, critical molten salt systems, and hybrid fusion/fission systems. Both fertile and fertile-free fuel options have been investigated. Apart from the benchmarking of steady state core configurations (including the investigation of transmutation potential, burn-up behavior and decay heat of minor actinide (MA) bearing fuels), the CRP participants determined the safety coefficients for the individual systems and, in a second stage, performed transient analyses which reflected the generic safety related behavior of the various reactors types.JRC.F.4-Safety of future nuclear reactor

REPORT ON INTERMEDIATE RESULTS OF THE IAEA CRP ON STUDIES OF ADVANCED REACTOR TECHNOLOGY OPTIONS FOR EFFECTIVE INCINERATION OF RADIOACTIVE WASTES

In 2003 the IAEA has initiated a Coordinated Research Project (CRP) on ‘‘Studies of Advanced Reactor Technology Options for Effective Incineration of Radioactive Waste”. Major intermediate results have been obtained and will be reported here. The overall objective of the CRP, performed within the framework of IAEA’s Nuclear Energy’s Department Technical Working Group on Fast Reactors, is to increase the capability of Member States in developing and applying advanced technologies in the area of long-lived radioactive waste utilization and transmutation. Sixteen institutions from 12 member states and one international organization participated in this CRP. The CRP concentrated on the assessment of the dynamic behaviour of various transmutation systems. The reactor systems investigated comprise critical reactors, subcritical accelerator driven systems with heavy liquid metal and gas cooling, critical molten salt systems and hybride fusion/fission systems. Both fertile and fertile-free fuel options have been investigated. For a deep assessment of the transient and safety behaviour, the analytical capabilities have to be qualified. A major effort of the CRP consisted in the benchmarking of steady state core configurations and performing transient/accident simulations. For a general assessment and comparison, the safety coefficients were determined for the individual systems. In a second step transient analyses were performed which reflected the generic behaviour of the various reactors types. In addition the transmutation potential, burn-up behaviour and decay heat of minor actinide bearing fuels were investigated

REPORT ON INTERMEDIATE RESULTS OF THE IAEA CRP ON STUDIES OF ADVANCED REACTOR TECHNOLOGY OPTIONS FOR EFFECTIVE INCINERATION OF RADIOACTIVE WASTES

In 2003 the IAEA has initiated a Coordinated Research Project (CRP) on ‘‘Studies of Advanced Reactor Technology Options for Effective Incineration of Radioactive Waste". Major intermediate results have been obtained and will be reported here. The overall objective of the CRP, performed within the framework of IAEA's Nuclear Energy's Department Technical Working Group on Fast Reactors, is to increase the capability of Member States in developing and applying advanced technologies in the area of long-lived radioactive waste utilization and transmutation. Sixteen institutions from 12 member states and one international organization participated in this CRP. The CRP concentrated on the assessment of the dynamic behaviour of various transmutation systems. The reactor systems investigated comprise critical reactors, subcritical accelerator driven systems with heavy liquid metal and gas cooling, critical molten salt systems and hybride fusion/fission systems. Both fertile and fertile-free fuel options have been investigated. For a deep assessment of the transient and safety behaviour, the analytical capabilities have to be qualified. A major effort of the CRP consisted in the benchmarking of steady state core configurations and performing transient/accident simulations. For a general assessment and comparison, the safety coefficients were determined for the individual systems. In a second step transient analyses were performed which reflected the generic behaviour of the various reactors types. In addition the transmutation potential, burn-up behaviour and decay heat of minor actinide bearing fuels were investigate