Preface



















            In order to efficiently and reliably drive compressors and other fluid
            movers, virtually every industry depends on steam turbine drivers.The
            various types of fluid movers often require variable input speeds, and
            steam turbines are capable of providing these without too much diffi-
            culty.
              Situations may arise using applications during which a process
            plant needs large quantities of heat. The modern mechanical drive
            steam turbine proves capable of adding to plant efficiency by allowing
            the motive steam to first expand through a series of blades and then be
            used in the process of heating elsewhere in the plant, or as utility
            steam for heating buildings on-site or in the community.
              The economy and feasibility of these and a multitude of related
            applications depend on the reliability of steam turbines. There is also a
            strong dependency on the capability of the selected models and geome-
            tries of steam turbines to handle a given steam condition at the desired
            throughput or output capacity.
              Similar considerations will prompt the engineer to survey the field
            of available drivers for process and/or utility duty. We note that in
            most large, complex petrochemical plants, particularly plants where
            steam is either generated or consumed by the process, mechanical
            drive steam turbines have been the prime mover of choice. These large
            variable-speed units are a critical component in continuous-flow chem-
            ical processes and, in most cases, are placed in service without backup
            capability. This kind of application demands the highest reliability and
            availability performance. These two requirements form the corner-
            stone of the development programs under way at the design and man-
            ufacturing facilities of the world’s leading equipment producers.
              More than ever before, petrochemical and other industries are facing
            intense global competition, which in turn has created a need for lower-
            cost equipment. Global competition has also created a demand for the
            modification of existing steam turbines to gain efficiency, that is, an


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