52   Chapter Three

            nal loads. Volute loads in pumps, mesh loads in gearboxes, and asym-
            metric loads in steam turbines are examples of external loads.
              The vibration attenuation for any steam turbine rotor/bearing sys-
            tem is significantly influenced by the journal bearing design. A good
            bearing design will provide sufficient bearing damping for vibration
            suppression plus operate at reasonable metal temperatures. A poor
            design will lead to vibration problems or high-temperature operation,
            both resulting in reduced bearing life and increased downtime.
              Steam turbine journal bearing design has evolved over the years
            from primarily fixed-geometry bearings to tilting-pad bearings. Fixed-
            geometry or sleeve bearings have the annoying property of creating an
            excitation force that can drive the turbine unstable by creating a sub-
            synchronous vibration. This phenomenon usually occurs at relatively
            high rotor speeds and/or light bearing loads. This inherent bearing-
            induced instability can be completely eliminated with the tilting-pad
            bearing.
              Further enhancements in tilting-pad steam turbine bearing design
            over the years include switching almost exclusively to four pad bear-
            ings loaded between pivots. The tilting-pad axial length has also
            increased from around 50 percent of the journal diameter to typically
            75 percent of the journal diameter. Both of these enhancements pro-
            vide increased effective damping for vibration suppression for most
            steam turbine designs.
              Most recently, reduced temperature tilting-pad bearing designs have
            evolved to allow larger-diameter bearings to run at faster surface
            velocities. These designs utilize the cool inlet oil more efficiently,
            thereby reducing the operating metal temperatures.
              The following sections address all of these advancements, with the
            advantages of each design feature clearly outlined. The disadvantages
            of these advancements, when applicable, are also addressed.

            3.1.1 Fixed-geometry journal
            bearing stability
              Fixed-geometry or sleeve bearings have the annoying property of
            creating an excitation force that can drive the rotor unstable by creat-
            ing a subsynchronous vibration. This phenomenon usually occurs at
            relatively high rotor speeds and/or light bearing loads, or, more gener-
            ally, at a high Sommerfeld number. The Sommerfeld number  S is
            defined as follows:
                                 S = (μNLD)/(60W)(D/C d ) 2
            where   μ= average fluid viscosity, lbf⋅s/in 2
                   N = rotor speed, r/min
                   L = bearing length, in