User maintenance

User maintenance includes operation where not automatic, cleaning of filters and strainers, attention to oil and lubricant levels, belt tensioning, general cleaning, running standby equipment, and verification of control operation. 

Many specialists in SRVs and systems agree that as a practical matter, conventional PHA methods are not always the most effective tools for evaluating pressure relief systems. They also conclude that the pressure relief system design process could be improved. Working closely with a lot of the design firms, I concluded that they merely try to comply with the codes at a minimum cost and care very little about LCC (life cycle cost) of the components. This puts pressure later on the end users maintenance departments usually, these employees have little or no input in the selection of design components whose problems ultimately end up in their laps. In my opinion, it is recommended that, in order to reduce this deficiency rate, the industry should adopt a more equipment-based approach to pressure relief system design and maintenance... 

Analyzing instructions and warnings to the user, maintenance manuals, and labeling and promotional material in order to minimize misinterpretation... 

TAGS) External. Connected users, maintenance and repair, visitors, those with wider access, regulators and security advisers, natural disasters... 

Grant Access Permit GRANTACCESS MODEL NAME= HDS-Plant , User= Maintenance-User , Access-Type= Read ... 

Apart from the cost of knowledge acquisition, another disadvantage of rule-based systems is the difficulty of rule-base maintenance. Rule-base maintenance may be required when changes are made to the inspection system, the inspection procedures, or if differing constructions are inspected. The maintenance usually cannot be done by end-users. 

In order to estabUsh this type of service, the maintenance management should meet often with their outside suppHer as weU as with their iaside customers to benefit the end user the external customers. During these meetings the foUowiag steps should be taken to assure nonstop quahty Hsten to the customers, work with customers to clarify expectations, identify measurable iadicators, exceed expectations, deUver products and services when customers need them, keep promises, design for ease of use, constandy improve, focus improvements on areas related to customer expectations, and respond quickly (5). 

The development of computer capabiUties in hardware and software, related instmmentation and control, and telecommunication technology represent an opportunity for improvement in safety (see COMPUTER TECHNOLOGY). Plant operators can be provided with a variety of user-friendly diagnostic aids to assist in plant operations and incipient failure detection. Communications can be more rapid and dependable. The safety control systems can be made even more rehable and maintenance-free. Moreover, passive safety features to provide emergency cooling for both the reactor system and the containment building are being developed. 

R. M. Hanbah, Economic Impact of WinterRoad Maintenance on Road Users, Transportation Research Record 1442, Transportation Research Board, Washington, D.C., 1994. 

For many years the usual procedure in plant design was to identify the hazards, by one of the systematic techniques described later or by waiting until an accident occurred, and then add on protec tive equipment to control future accidents or protect people from their consequences. This protective equipment is often complex and expensive and requires regular testing and maintenance. It often interferes with the smooth operation of the plant and is sometimes bypassed. Gradually the industry came to resize that, whenever possible, one should design user-friendly plants which can withstand human error and equipment failure without serious effects on safety (and output and emciency). When we handle flammable, explosive, toxic, or corrosive materials we can tolerate only very low failure rates, of people and equipment—rates which it may be impossible or impracticable to achieve consistently for long periods of time. 

The book does not focus on occupational safety and health issues, although improved process safety can benefit these areas. Detailed engineering designs are outside the scope of this work. This book intends to identify issues and concerns in batch reaction systems and provide potential solutions to address these concerns. This should be of value to process design engineers, operators, maintenance personnel, as well as members of process hazards analysis teams. While this book offers potential solutions to specific issues/concerns, ultimately the user needs to make the case for the solutions that provide a balance between risk... 

Intended for graduate engineers, maintenance engineers, end -users and those needing an accessible account of centrifugal pumps, this booh explains it alU... 

This chapter highlights and summarizes considerations dealing with expander subsystems, materials, manufacture, installation, component design, equipment maintenance and repair that might assist users in developing or evaluating turboexpander specifications. 

The petroleum industry is one of the largest users of gas turbines as prime movers for drives of mechanical equipment and also for power generation equipment. Thus the specifications written are well suited for this industry, and the tips of operation and maintenance apply for all industries. This section deals with some of the applicable API and ASME standards for the gas turbine and other various associated pieces. 

Users Operation and maintenance engineers Operation and maintenance engineers Project and design engineers... 

The basis for evaluation of piston speed varies throughout industry. This indicates that the subject is spiced with as much emotion as technical basics. An attempt to sort out the fundamentals will be made. First, because there are so many configurations and forms of the reciprocating compressor, it would appear logical that there is no one piston speed limit that will apply across the board to all machines. The manufacturer is at odds with the user because he would like to keep the speed up to keep the size of the compressor down, while the user would like to keep the speed down for reliability purposes. As is true for so many other cases, the referee is the economics. An obvious reason to limit the speed is maintenance... 

The balance chamber leakoff line, while recommended to be held within the confines of the compressor casing may well turn out to require some user piping. There are some situations where the desire for keeping open space around the compressor for maintenance may require compromise on the part of the user. The balance of the connections on the axial are for lube oil and other auxiliary equipment not different from that found on other compressors. 

Simple-cycle efficiency does not usually mean as much to process users as total-cycle efficiency, because the gas turbine is not usually economic in process applications without some type of heat recovery. Total-cycle efficiency is most important in any economic evaluation. In a cycle with heat recovery, the only major loss that is charged to the cycle is the heat exhausting from the boiler stack. With the good comes the bad. Gas turbine maintenance is generally somewhat higher in cost and should be included in the total evaluation. 

The most versatile arrangement, from an operations point of view, is individual transfer valves, one for the twin coolers and one for the twin filters. The use of one valve for both the filter and cooler results in a loss in flexibility, as the cooler maintenance interval is usually somewhat longer term than a filter changeout. Should one cooler be out of service, and the filter that is paired with the operating cooler be fouled, the compressor will have to shutdown. Each user will have to review the extra cost oi a second valve against the operation limit. 

The confluence of sharply rising Operations and Maintenance (O M) costs. NRC requested Individual Plant Examinations (IPEs) and increased personal computer capabilities gave rise to the R R Workstation. Its uses and maintains-current PSA models and databases for individual plants to perform O M planning and scheduling, and uses the PSA in IPE models to identify plant design, procedure and operational vulnerabilities. The Risk and Reliability Workstation Alliance was organized by EPRI to support the R R Workshop in order to achieve O M cost reduction, plant productivity and safety enhancement through risk-based, user-friendly, windowed software louls (Table 3.6 8). The Alliance, initiated in 1992, includes 25 U.S. utilities and four international partners from Spain, France, Korea, and Mexico. SAIC is the prime contractor for the R R Workstation, with participation of five other PSA vendors. 

---