Hanger assembly with penetrators

The invention claimed is: 1. A wellhead assembly, comprising: a tubular wellhead body having a wellhead axial bore with an axis; a wellhead radial bore extending along a radial line from an outer periphery of the wellhead body to the wellhead axial bore; a hanger having a landed position within the wellhead axial bore, the hanger having a hanger axial bore; a hanger radial port extending radially from an exterior surface of the hanger to the hanger axial bore; a tube sealingly carried in the wellhead radial bore, the tube being movable between a retracted position and an extended position, the tube having an inner end that is recessed in the wellhead radial bore while in the retracted position and protrudes into the wellhead axial bore into engagement with the hanger radial port while in the extended position; and a flow passage between the exterior surface of the hanger and a side wall of the wellhead axial bore, enabling a flow of fluid up and down the wellhead axial bore while the hanger is in the landed position. 2. The assembly according to claim 1 , further comprising: a landing shoulder on the hanger, the landing shoulder resting on an inner end portion of the tube while the tube is in the extended position and the hanger is in the landed position; and wherein a load imposed on the hanger is transferred to the tube while the hanger is in the landed position. 3. The assembly according to claim 1 , wherein: the tube is movable to an intermediate position between the retracted and extended positions prior to the hanger being lowered to the landed position; and the hanger further comprises: an alignment slot extending downward from the hanger radial port, the alignment slot having opposed cam surfaces converging toward each other in an upward direction that slidingly engage the tube while the tube is in the intermediate position and the hanger is being lowered into the wellhead axial bore, causing the hanger to rotationally orient the hanger radial port with the inner end of the tube; and wherein subsequent movement of the tube from the intermediate position to the extended position causes the inner end of the tube to sealingly engage the hanger radial port. 4. The assembly according to claim 1 , wherein: the tube is movable to an intermediate position between the retracted and extended positions prior to the hanger being lowered to the landed position; and the hanger further comprises: an alignment slot extending downward from the hanger radial port, the alignment slot having opposed cam surfaces converging toward each other in an upward direction that slidingly engage the tube while the tube is in the intermediate position and the hanger is being lowered into the wellhead axial bore, so as to rotate the hanger to orient the hanger radial port with the inner end of the tube; and a landing shoulder at an upper end of the alignment slot that lands on the tube while the tube is in the intermediate position and transfers a load on the hanger to the tube. 5. The assembly according to claim 1 , wherein: the tube is movable to an intermediate position between the retracted and extended positions prior to the hanger being lowered to the landed position; and the hanger further comprises: a hanger body; a guide member extending around and affixed to the hanger body; an alignment slot in the guide member and extending downward from the hanger radial port, the alignment slot having opposed cam surfaces converging toward each other in an upward direction that slidingly engage the tube while the tube is in the intermediate position and the hanger is being lowered into the wellhead axial bore, causing the hanger to rotationally orient the hanger radial port with the inner end of the tube; and wherein a portion of the flow passage extends between the hanger body and the guide member. 6. The assembly according to claim 5 , wherein the flow passage comprises: an annular cavity extending around the hanger body, the guide member surrounding the annular cavity, the hanger radial port being located above the annular cavity; a lower flow channel between the guide member and the hanger body and leading from a lower portion of the hanger body to the annular cavity, the lower flow channel being positioned in vertical alignment with the hanger radial port; an upper flow channel between the guide member and the hanger body and leading upward from the annular cavity, the upper flow channel being rotationally offset from the radial port and the lower flow channel; and wherein upward flowing fluid flows through the lower flow channel, the annular cavity, and the upper flow channel. 7. The assembly according to claim 1 , further comprising: a threaded adjustment nut on an outer end portion of the tube and an outer portion of the wellhead body for moving the tube between the retracted and extended positions in response to rotation of the adjustment nut. 8. The assembly according to claim 1 , wherein: the hanger has a maximum outer diameter that is less than a minimum inner diameter of the wellhead axial bore. 9. The assembly according to claim 1 , further comprising: a string of coiled tubing containing an electrical cable; a coiled tubing head at an upper end of the string of coiled tubing and mounted within the hanger axial bore, the coiled tubing head having a coiled tubing head electrical contact aligned with the radial port in the hanger; and a tube electrical contact within a tube bore of the tube, the tube electrical contact being in engagement with the coiled tubing head electrical contact while the tube is in the extended position. 10. A wellhead assembly, comprising: a tubular wellhead body having a wellhead axial bore with an axis; a wellhead radial bore extending along a radial line from an outer periphery of the wellhead body to the wellhead axial bore; a hanger having a hanger axial bore; a hanger radial port extending radially from an exterior surface of the hanger to the hanger axial bore; a tube sealingly carried in the wellhead radial bore; a tube moving mechanism mounted to the wellhead body that selectively moves the tube between a retracted position, an intermediate position and an extended position, the tube having an inner end that is recessed in the wellhead radial bore while in the retracted position, that protrudes a first distance into the wellhead axial bore while in the intermediate position, and which protrudes a second distance into engagement with the hanger radial port while in the extended position; a landing shoulder on the hanger above the radial port that lands on an inner portion of the tube while the tube is in the intermediate position and the hanger is being lowered into wellhead axial bore, transferring a load on the hanger to the tube; wherein the tube moving mechanism selectively moves the tube from the intermediate position to the extended position after the hanger has landed on the inner portion of the tube; and a flow passage between the exterior surface of the hanger and a side wall of the wellhead axial bore, enabling a flow of fluid up and down the wellhead axial bore after the hanger has landed on the inner portion of the tube and the tube is in the extended position. 11. The assembly according to claim 10 , further comprising: an alignment slot extending downward from the hanger radial port, the alignment slot having opposed cam surfaces converging toward each other in an upward direction that slidingly engage the inner portion of the tube while the tube is in the intermediate position and the hanger is being lowered into the wellhead axial bore, causing the hanger to rotationally orient the hanger radial port with the inne