Oil Field Services Apparatus and Methods

1 . An apparatus comprising: a conveyance system operable for lowering and retrieving a downhole tool in and out of a wellbore, wherein the conveyance system comprises: a drum operable for rotating and receiving a line connectable with the downhole tool; a motor-generator mechanically connected with the drum and operable for: receiving electrical energy to impart torque to the drum; and receiving torque from the drum to generate electrical energy; and an energy storage electrically connected with the moto-generator and operable for: storing electrical energy received from the motor-generator. 2 . The apparatus of claim 1 wherein the conveyance system is or comprises at least one of a winch system and an injector system. 3 . The apparatus of claim 1 wherein the energy storage is operable for supplying electrical energy to the motor-generator and/or to an additional operational element. 4 . The apparatus of claim 1 wherein the motor-generator is operable for: receiving torque from the drum as the downhole tool is lowered in the wellbore; and generating electrical energy to be stored by the energy storage. 5 . The apparatus of claim 1 comprising an additional source of electrical energy, wherein the conveyance system is operable for electrically connecting with the additional source of electrical energy and the energy storage to supply electrical energy to the motor-generator, and to electrically connect one of the additional source of electrical energy and the energy storage when electrical energy from the other of the additional source of electrical energy and the energy storage is not sufficient. 6 . The apparatus of claim 1 wherein the conveyance system is disposed on a vehicle, and wherein the vehicle comprises for motion a transportation source of energy and wherein the transportation source of energy is electrically connected with energy storage, and wherein the energy storage is operable for storing electrical energy from the transportation source of energy. 7 . The apparatus of claim 1 wherein the motor-generator is one of a plurality of motor-generators, each operable for: receiving electrical energy to impart torque to the drum; and receiving torque from the drum to generate electrical energy. 8 . An apparatus comprising: a conveyance system operable for lowering and retrieving a downhole tool in and out of a wellbore via a line connected with the downhole tool, wherein the conveyance system comprises: a reel operable for receiving the line; and an injector head disposed between the wellhead and the reel and operable to convey the line and the downhole tool in and out of the wellbore, wherein the injector head grips the line to substantially support the tensions caused by at least the weight of the downhole tool. 9 . The apparatus of claim 8 wherein a first portion of the line extending between the tool string and the injector head is under a first tension during lowering and retrieving of the downhole tool, wherein a portion of the line extending between the reel and the injector head is under a second tension during lowering and retrieving of the downhole tool, and wherein the second tension is independent from the first tension. 10 . The apparatus of claim 8 wherein a portion of the line extending between the reel and the injector head is substantially free of tension. 11 . The apparatus of claim 8 wherein the injector head comprises opposing circulating members operable to grip the line by compressing the line causing friction between the circulating members and the line. 12 . The apparatus of claim 11 wherein the circulating members comprise belts or chains. 13 . The apparatus of claim 11 wherein each of the circulating members comprises a channel extending longitudinally along a surface of each circulating member. 14 . An apparatus comprising: a line operable to connect a conveyance system located at a wellsite surface with a downhole tool located within a wellbore extending from the wellsite surface, wherein the line comprises: a core; a plastic material covering the core; and at least a conductor wound around the core in a helical configuration and embedded within the plastic material. 15 . The apparatus of claim 14 wherein the plastic material comprises at least a radially inner plastic layer and a radially outer plastic layer, and wherein the conductor is disposed between the radially inner and radially outer plastic layers. 16 . The apparatus of claim 14 wherein the conductor is or comprises an optical fiber operable to conduct optical signals and/or a metallic wire operable to conduct electrical signals. 17 . The apparatus of claim 14 wherein the line further comprises a plurality of conductors wound around the core in a helical configuration and embedded within the plastic material. 18 . The apparatus of claim 14 wherein the helical configuration of the conductor comprises a variable pitch. 19 . The apparatus of claim 14 wherein the helical configuration of the conductor comprises alternating intervals of greater and lesser pitch. 20 . The apparatus of claim 14 further comprising: a first layer of plastic material covering the core; at least a first reinforcement member wound around the first layer of plastic material in a first helical configuration; a second layer of plastic material covering the first reinforcement member and the first layer of plastic material; at least a second reinforcement member wound around the second layer of plastic material in a second helical configuration; and a third layer of plastic material covering the second reinforcement member and the second layer of plastic material, wherein the conductor is wound around one of the first or second layers of plastic material.