Variable Speed Pipeline Pig With Internal Flow Cavity

What is claimed is: 1 . A method of controlling a flow of a pipeline fluid through a pipeline pig including a bypass channel and at least one relief channel extending therethrough, the method comprising: (a) inserting the pipeline pig into a pipeline through which the pipeline fluid is flowing; (b) increasing a differential pressure established in the pipeline fluid between a trailing end and a leading end of the pipeline pig such that the differential pressure sequentially reaches a pre-selected minimum relief pressure, a pre-selected maximum relief pressure and a pre-selected minimum bypass pressure; (c) opening the at least one relief valve to permit the pipeline fluid to flow through the relief channel when the differential pressure reaches the pre-selected minimum relief pressure; (d) closing the at least one relief valve to prohibit the flow of pipeline fluid through the relief channel when the differential pressure reaches a pre-selected maximum relief pressure; and (e) opening a bypass valve to permit the pipeline fluid to flow through the bypass channel when the differential pressure reaches the pre-selected minimum bypass pressure. 2 . The method according to claim 1 , wherein the opening the at least one relief valve comprises compressing a compression spring to move a closure member out of contact with a first seat. 3 . The method according to claim 2 , wherein the closing the at least one relief valve comprises further compressing the compression spring to move the closure member into contact with a second seat. 4 . The method according to claim 1 , wherein the pipeline pig comprises: a housing defining a trailing end, a leading end and longitudinal axis extending therebetween; a bypass channel extending longitudinally through the housing between the trailing end and the leading end thereof; a bypass valve disposed within the bypass channel, wherein the bypass valve is operable to maintain a restrictive configuration in which a pipeline fluid is prohibited from flowing through the bypass channel when a differential pressure established in the pipeline fluid between the trailing end and the leading end of the housing is below a pre-selected minimum bypass pressure, and wherein the bypass valve is operable to move to a bypass configuration in which the pipeline fluid is permitted to flow through the bypass channel in response to the differential pressure reaching the pre-selected minimum bypass pressure; at least one relief channel extending longitudinally through the housing between the trailing end and the leading end thereof; and at least one relief valve disposed within the at least one relief channel, the at least one relief valve operable to move from a first closed configuration to an open configuration in response to the differential pressure reaching a pre-selected minimum relief pressure and operable to move from the open configuration to a second closed configuration in response to the differential pressure reaching a pre-selected maximum relief pressure, wherein the at least one relief valve prohibits flow of the pipeline fluid through the at least one relief channel when in the first and second closed configurations and permits flow of the pipeline fluid through the at least one relief channel when in the open configuration, and wherein the pre-selected minimum bypass pressure is greater than the pre-selected maximum relief pressure, and the pre-selected maximum relief pressure is greater than the pre-selected minimum relief pressure. 5 . The method according to claim 1 , wherein the pipeline pig comprises: a housing defining a trailing end, a leading end and longitudinal axis extending therebetween; at least one relief channel extending longitudinally through the housing between the trailing end and the leading end thereof, the at least one relief channel defining an annular wall; a closure member disposed within the annular wall, the closure member operable to engage a first seat to prohibit fluid flow through the relief channel and operable to disengage the first seat to permit fluid flow through the relief channel; and an annular space defined between the closure member and the annular wall, the annular space exhibiting a smaller cross-section than regions of relief channel upstream and downstream of the closure member such that the annular space represents a constriction for fluid flow and the relief channel defines a venture, wherein the closure member is further operable to engage a second seat to prohibit fluid flow through the relief channel while the closure member is disengaged from the first seat, and wherein the closure member is biased toward the first seat and away from the second seat by a biasing member, such that the biasing member is operable to passively maintain the closure member in engagement with the first seat if a differential pressure established between a trailing end and a leading end of the housing is less than a pre-selected minimum relief pressure, and operable to permit the closure member to engage the second seat if the differential pressure is greater than a pre-selected maximum relief pressure.