Structure Of Mechanical Integrity Management System Of Oilfield Enterprise

Oilfield enterprises have a huge technology system. The accident predisposingabout machinery and facilities factor is complex. The probability of the accident ishigh and the consequences are serious. The majority causes of accidents are closelylinked to machinery and facilities failure or unsafe operating status. Mechanicalintegrity management which is start from mechanical preventive maintenance and riskcontrol is an important guarantee to achieve safe production of oilfield enterprises.Mechanical integrity management is a dynamic mechanical monitoring processinvolving technical and management at two levels. Object of study in this paper is themachinery being used at this stage in oilfield enterprises. Firstly, management modelsand underlying data information management structure is established through thesystematic analysis of various mechanical systems field characteristics and internalmanagement level; then, the internal management mechanism is constructed frommechanical preventive maintenance standards, mechanical preventive maintenanceplans, routine monitoring and management responsibilities, the problem exceptionprocessing, mechanical change and other aspects; Finally mechanical riskmanagement system is established according to the importance of machinery andaccessories, running media, run cycle, testing, status and existing problems, etc.Mechanical integrity management system platform is established from the fouraspects: mechanical preventive maintenance, management of change, supplierevaluation and risk management. To ensure that the mechanical is safe and operationis stable in its full life cycle.This paper constructed the mechanical integrity management system platformwhich is combined computer software technology, database technology and networktechnology, under the mode combined B/S and C/S, using java programminglanguage, to achieve real-time mechanical information read and release. Thesubsystems in this system are interrelated and interacted to form dynamic closed loop systems, thus mechanical dynamic continuity management is achieved. The purposeof the study is to control the mechanical operation o risk level under the acceptablerange, avoid unnecessary replacement of equipment and accessories, reduce systemmaintenance costs and guarantee equipment operation safe and reliable.