Pump apparatus comprising a base or chassis, a power unit and a reel assembly each operatively mounted to the base or chassis, a flexible conveyor conduit and flexible service line adapted to be payed out from the reel assembly and a work head including a pump operatively connected to the conveyor conduit. The work head comprises a pump having an outlet which is operatively connected to a conveying conduit, a support frame to which the pump is mounted and a powered traction drive assembly operatively mounted to the support frame. The reel assembly comprises a reel rotatably mounted to the base or chassis, a conveying conduit and a flexible service line, each being adapted to be wound thereon and payed out therefrom.

A coiled tubing unit includes a coiled tubing assembly and a slickline assembly sharing an axis of rotation with the coiled tubing assembly. A shaft of the coiled tubing assembly is received by bearings on a slickline drum of the slickline assembly and extends through an interior of the slickline drum. A swivel joint connection is rotatably affixed on an end of the shaft as it exits the interior of the slickline drum, thus allowing for introduction of fluid or cabling into the shaft and into the coiled tubing. The coiled tubing drum and slickline drum can rotate independently and are powered independently of each other. The coiled tubing and slickline assemblies are preferably affixed to a removable module, the removable module being positioned on a skid having a power unit and appropriate controls.

A hose reel 1 comprising a rotatable hub 2 and a stationary stand 4, wherein rotatable hub is arranged to roll on or roll off a hose. A swivel arrangement 3 forms an axis around a central axis of the rotatable hub, wherein the swivel arrangement comprises a rotatable part connecting to the rotatable hub and a stationary part connecting to the stationary stand, and wherein the swivel arrangement forms a passage for fluid.

A coiled tubing unit includes a coiled tubing assembly and a slickline assembly sharing an axis of rotation with the coiled tubing assembly. A shaft of the coiled tubing assembly is received by bearings on a slickline drum of the slickline assembly and extends through an interior of the slickline drum. A swivel joint connection is rotatably affixed on an end of the shaft as it exits the interior of the slickline drum, thus allowing for introduction of fluid or cabling into the shaft and into the coiled tubing. The coiled tubing drum and slickline drum can rotate independently and are powered independently of each other. The coiled tubing and slickline assemblies are preferably affixed to a removable module, the removable module being positioned on a skid having a power unit and appropriate controls.

A coiled tubing unit includes a coiled tubing assembly and a slickline assembly sharing an axis of rotation with the coiled tubing assembly. A shaft of the coiled tubing assembly is received by bearings on a slickline drum of the slickline assembly and extends through an interior of the slickline drum. A swivel joint connection is rotatably affixed on an end of the main shaft as it exits the interior of the slickline drum, thus allowing for introduction of fluid or cabling into the main shaft and into the coiled tubing. The coiled tubing drum and slickline drum can rotate independently and are powered independently of each other. The coiled tubing and slickline assemblies are preferably affixed to a removable module, the removable module being positioned on a skid having a power unit and appropriate controls.

A coiled tubing unit includes a coiled tubing assembly and a slickline assembly sharing an axis of rotation with the coiled tubing assembly. A shaft of the coiled tubing assembly is received by bearings on a slickline drum of the slickline assembly and extends through an interior of the slickline drum. A swivel joint connection is rotatably affixed on an end of the main shaft as it exits the interior of the slickline drum, thus allowing for introduction of fluid or cabling into the main shaft and into the coiled tubing. The coiled tubing drum and slickline drum can rotate independently and are powered independently of each other. The coiled tubing and slickline assemblies are preferably affixed to a removable module, the removable module being positioned on a skid having a power unit and appropriate controls.

Devices and methods are provided for handling at least one hose on a fuel dispensing unit. In one embodiment, a device for handling a hose includes a hollow frame element having a first and second outer ends. A first guiding element can be arranged in the frame element, and an elastic element can extend horizontally in the frame element from a first fastening point to a second fastening point. The elastic element can be guided by the first guiding element. The device can also include a first hose guide adjacent to the first end of the frame element for guiding the at least one hose. The first fastening point can be positioned on the first hose guide such that the first hose guide is movable away from the frame element allowing the at least one hose to be pulled from an idle position to an operating position.

A hose reel 1 comprising a rotatable hub 2 and a stationary stand 4, wherein rotatable hub is arranged to roll on or roll off a hose. A swivel arrangement 3 forms an axis around a central axis of the rotatable hub, wherein the swivel arrangement comprises a rotatable part connecting to the rotatable hub and a stationary part connecting to the stationary stand, and wherein the swivel arrangement forms a passage for fluid.

A system of where internal friction otherwise known to be back pressure or resistance is eliminated and iterations of power transfers allows for a greater use of the effort put into the use of the device embodied within the 2 powered system, as presented here as to teach others how we, as in the use of shared and sustained power, may be able to reduce the consumption of power and where certain artifacts are taken to power stages within a hose. To aid in lessening the power needed when a material is compressed into a hose forcing a pump implemented in the duty range to produce such pressure is unduly burdened. To achieve equilibrium within the material delivery system by inducing movement and in doing so making the jerking action of energy transfer across unequal pressures to be relieved. The coordination of these simple components to the delivery that may be generated from this specification are to be considered the use of any of the parts as they are each unique to a developed system to deliver pressured materials through a hose. Operators of said equipment generated through this method may indulge in ease of operation within a lowered power range. This is a SAFETY METHOD.

Devices and methods are provided for handling at least one hose on a fuel dispensing unit. In one embodiment, a device for handling a hose includes a hollow frame element having a first and second outer ends. A first guiding element can be arranged in the frame element, and an elastic element can extend horizontally in the frame element from a first fastening point to a second fastening point. The elastic element can be guided by the first guiding element. The device can also include a first hose guide adjacent to the first end of the frame element for guiding the at least one hose. The first fastening point can be positioned on the first hose guide such that the first hose guide is movable away from the frame element allowing the at least one hose to be pulled from an idle position to an operating position.