Frac transfer diverter valve

What is claimed is: 1. A diverter valve comprising: a valve body; an inlet; a plurality of outlets; an internal cavity to which the inlet and the outlets are connected; and a valve member which is movably positioned in the cavity, the valve member comprising a through bore which is configured to connect the inlet with a corresponding one of the outlets for each of a plurality of operative positions of the valve member; whereby in operation of the diverter valve, the valve member is movable between its operative positions to selectively connect the inlet with any one of the outlets; wherein the through bore comprises a first end which is connected to the inlet and a second end which is connectable to a respective outlet for each operative position of the valve member; wherein the valve member is rotatably supported in the cavity about an axis of rotation which is coaxial with the inlet; wherein the valve member comprises a spherical portion and the through bore comprises an inlet branch which extends through the valve member coaxially with the inlet and an outlet branch which extends through the spherical portion from the inlet branch; wherein the valve member is supported in the cavity between first and second retainer members which are secured to the valve body on axially opposite ends of the valve member, wherein the inlet extends through the first retainer member, and wherein the valve member is connected to a valve stem which extends through the second retainer member; and wherein the first retainer member is positioned in a first bore which extends through an outer surface of the valve body coaxially with the inlet, and wherein the first retainer member is removable through the first bore to thereby provide access to the valve member. 2. The diverter valve of claim 1 , wherein the inlet is formed in an inlet spool which is connected to the valve body and comprises an end connection. 3. The diverter valve of claim 2 , wherein the inlet spool comprises an inlet mandrel which is configured to be received in a retainer bore which extends through the first retainer member coaxially with the inlet bore, and wherein the inlet mandrel is sealed to the valve member. 4. The diverter valve of claim 1 , wherein the valve member comprises first and second annular lips which are formed coaxially with the axis of rotation of the valve member on axially opposite ends of the spherical portion, and wherein each of the first and second retainer members comprises a retainer mandrel which extends through a respective bore in the valve body and engages a corresponding one of the lips to thereby inhibit axial movement of the valve member in the cavity. 5. The diverter valve of claim 4 , wherein the valve member comprises first and second trunnion portions between which the spherical portion is positioned, and wherein the inlet branch extends through the first trunnion portion. 6. The diverter valve of claim 5 , wherein each trunnion portion is supported in a corresponding retainer mandrel. 7. The diverter valve of claim 1 , wherein the spherical portion is positioned between a plurality of valve seats, each of which is positioned at an intersection of the cavity and a corresponding outlet, and each of which includes a seat bore which is aligned with the outlet and an annular sealing face which is configured to sealingly engage the spherical portion. 8. The diverter valve of claim 7 , wherein each outlet is formed in a corresponding outlet spool which is connected to the valve body and comprises an end connection. 9. The diverter valve of claim 8 , wherein each outlet spool comprises an outlet mandrel which is configured to be received in a corresponding outlet bore in the valve body, and wherein each valve seat is retained in the valve body by a corresponding outlet mandrel. 10. The diverter valve of claim 9 , wherein each valve seat is slidably supported in at least one of the outlet bore and the outlet mandrel, and wherein the diverter valve further comprises a plurality of seals, each of which is slidably supported and sealingly engaged between an outer diameter surface of a corresponding valve seat and at least one of the outlet bore and the outlet mandrel.