Continuous emulsion polymerization reactor and pigging system

I claim: 1. A continuous emulsion polymerization apparatus comprising: a tubular reactor comprising (1) a circulating loop section and (2) a secondary line section having one end connected to a discharge opening of the loop section and a polymer outlet at its other end; one or more inlets though which a polymerizable monomer charge can be supplied to the tubular reactor; a pump for continuously circulating the monomer charge within the circulating loop section under conditions to effect polymerization thereof; a pig for cleaning the tubular reactor; a pig receiving station which accommodates the pig between cleaning operations; flow control devices operable to connect the pig receiving station to the tubular reactor so that during a cleaning operation the pig leaves the pig receiving station and passes through and cleans both the circulating loop section and the secondary line section of the reactor; and wherein the tubular reactor is in fluid communication with a suction side of the pump through an orifice in the wall of the tubular reactor. 2. The polymerization apparatus according to claim 1 , wherein the pig does not pass through the pump during cleaning operations. 3. The polymerization apparatus according to claim 1 , wherein the size of the orifice is smaller than the size of the pig. 4. The polymerization apparatus according to claim 1 , wherein the size of the orifice increases in a downstream direction of the tubular reactor. 5. The polymerization apparatus according to claim 1 , wherein a discharge side of the pump is in fluid communication with the circulating loop section by way of a first flow control device and with the pig receiving station through a second flow control device such that, when the first flow control device is open, a polymerizable monomer charge can circulate through the loop section and when the second flow control device is open, at least part of the polymerizable monomer charge can be diverted to the pig receiving station to launch the pig from the pig receiving station. 6. The polymerization apparatus according to claim 1 , wherein at least a substantial part of the tubular reactor forms at least one helical coil. 7. The polymerization apparatus of claim 1 , wherein the secondary line section has a volume of less than twice, preferably from 50 to 100%, of the volume of the circulating loop section. 8. The polymerization apparatus of claim 1 , wherein the pig can pass through the circulating loop section and the secondary line section and back to the pig receiving station without interrupting the polymerization. 9. The polymerization apparatus according to claim 1 , wherein the pig is launched from the pig receiving station by diverting the flow from at least one of said inlets. 10. The polymerization apparatus according to claim 1 , wherein the pig receiving station is connected to the reactor tube between the outlet of the secondary line section and the start of the loop section. 11. A continuous emulsion polymerization apparatus comprising: a tubular reactor comprising (1) a circulating loop section and (2) a secondary line section having one end connected to a discharge opening of the loop section and a polymer outlet at its other end; one or more inlets though which a polymerizable monomer charge can be supplied to the tubular reactor; a pump for continuously circulating the monomer charge within the circulating loop section under conditions to effect polymerization thereof; a pig for cleaning the tubular reactor; an orifice in a wall of the tubular reactor allowing the tubular reactor to be in fluid connection with a suction side of the circulation pump; a vent line connecting the tubular reactor downstream of the orifice to between the orifice and the circulating pump; a pig receiving station which accommodates the pig between cleaning operations; and flow control devices operable to connect the pig receiving station to the tubular reactor so that during a cleaning operation the pig leaves the pig receiving station and passes through and cleans both the circulating loop section and the secondary line section of the reactor. 12. The polymerization apparatus of claim 11 , wherein the vent line further comprises a valve which is opened as the pig approaches. 13. The polymerization apparatus of claim 11 , wherein as the pig passes the orifice, at least some of the reactor charge ahead of the pig passes into said vent line. 14. A continuous emulsion polymerization apparatus comprising: a tubular reactor comprising (1) a circulating loop section and (2) a secondary line section having one end connected to a discharge opening of the loop section and a polymer outlet at its other end; one or more inlets though which a polymerizable monomer charge can be supplied to the tubular reactor; a pump for continuously circulating the monomer charge within the circulating loop section under conditions to effect polymerization thereof; a pig for intermittently cleaning the tubular reactor; an orifice allowing the tubular reactor to be in fluid connection with a suction side of the circulation pump and positioned on the inner side of a curved portion of the tubular reactor such that the pig does not contract the orifice due to centrifugal force keeping the pig on the outside of said curved portion of the tubular reactor; a pig receiving station which accommodates the pig between cleaning operations; and flow control devices operable to connect the pig receiving station to the tubular reactor so that during a cleaning operation the pig leaves the pig receiving station and passes through and cleans both the circulating loop section and the secondary line section of the reactor. 15. The polymerization apparatus of claim 14 , wherein the orifice is further positioned between the circulating loop section and the secondary line section.