Repyakh L.P.
MODELING AND IMPLEMENTATION OF OIL AND GAS INDUSTRY PERSONNEL TRAINING IN PRODUCTION RISK SITUATIONS ^{[№ 1 ' 2020]}
Development of the oil and gas industry in the world is followed by growth of risks of accidents, precedents and dangers. The production risk of the oil and gas industry (internal for the enterprise) is connected with actions of personnel — masters, technicians, engineers of an average link. Need of abilities of riskologichesky character for personnel is recorded in educational and professional standards. At the same time the conventional attitude of personnel to situations of production risk is established that increases danger of technological processes of the oil and gas industry, provokes accidents with significant damage and human losses, updates problems of the choice of the best ways of training of personnel in actions in the conditions of risk situations.
Relevant training of personnel as a part of the “training through all life” system is implemented in additional professional education which possesses necessary mobility and flexibility of programs, technologies and techniques of training for timely the answer to calls of dynamically developing oil and gas production. At the same time experience of DPO in training of personnel of an oil and gas complex for situations of production risk is insufficiently scientifically presented and studied.
The purpose of the article is to present the results of modeling and implementation of training of oil and gas industry personnel to situations of industrial risk in conditions of additional professional education (DPO).
I have developed a model of training of oil and gas industry personnel to situations of industrial risk, implemented in conditions of additional professional education on the basis of a systematic approach. The model is an integration of target, methodological, structural, content-technological and performance-evaluation blocks. Implementation of the model is based on interaction of “DPO-client-employer,” filling of DPO programs with up-to-date subject knowledge, orientation on digitalization and visualization of production and training processes. The pilot study involved 1,232 engineering participants.
The results of the study are based on the creation and implementation of a model for training oil and gas industry personnel for production risk situations. There were positive changes in the results of training — the share of students demonstrating the ability to act independently in situations of industrial risk increased in the experimental groups from 5.94% to 21.78%.

Uzyakov R.N., Kushnarenko V.M., Repyakh V.S., Chirkov Yu.A.
INFLUENCE OF HARDNESS ON STEEL HYDROSULFIDE CRACKING ^{[№ 10 ' 2014]}
In article cases of hydrosulfide cracking of steel details and products are considered. It is shown that along with a chemical composition the most complex mechanical criterion characterizing suitability steel to operation in the hydrosulfide containing environments is hardness.

Kushnarenko V.M., Chirkov Yu.A., Repiah V.S., Stavishenko V.G.
BIOCORROSION OF STEEL DESIGNS ^{[№ 6 ' 2012]}
In article the biocorrosion mechanism, principal causes of biocorrosion damages of steel designs and methods of prevention of biocorrosion of products is considered.

Kushnarenko V.M., Chirkov Yu.A., Repiah V.S., Stavishenko V.G.
ENDURANCE FATIGUE OF DETAILS AND CONSTRUCTIONS ^{[№ 4 ' 2012]}
In article fatigue failures of details and construction under the influence of variable loadings are considered. Principal causes of refusals and methods of increase of working capacity of products are presented.

Kushnarenko V.M., Chirkov Yu.A., Fot A.P., Repyach V.S., Stavishenko V.G.
THE MECHANISM OF DAMAGE OF DETAILS AND DESIGNS AT INFLUENCE NAVODOROZHIVAYUSHCHIKH OF ENVIRONMENTS ^{[№ 4 ' 2012]}
In article the main reasons for destruction of details and designs are considered at influence of navodorozhivayushchy environments. The mechanism of corrosion cracking and hydrogen stratification of steel products and the designs contacting to navodorozhivayushchy environments is presented.

Kushnarenko V.M., Repyakh V.S., Chirkov E.Yu.
THE ANALYSIS OF FAILURE CAUSES OF EQUIPMENT AND CONDUITS ^{[№ 10 ' 2010]}
The authors examined the cases of the destruction of the equipment of bore holes, steel framework, conduits and components of conduits. They represented the basic reasons for the failures of equipment and conduits of the hydrogen sulfide-containing oil and gas condensate layers.

Jurshev V.I., Mihajlov V.N., Repjah B.S., Jurshev I.V.
PYROLITIC CHROMIC COVERINGS AND IMPROVEMENT OF TECHNOLOGY OF SEDIMENTATION ^{[№ 5 ' 2003]}
The given article contains the brief review on the methods of sedimentation of coverings and sedimentation from a steam phase with formation of a wearproof covering on details and cutting tool is examined. Structure, properties, equipment, and also a new way of sedimentation of a pyrolitic chromic covering are described here.