A system includes a first mobile body configured to support a turbine engine and an air intake section coupled to the turbine engine. The system also includes a second mobile body configured to support a generator. The first and second mobile bodies are configured to guide a removable coupling between the turbine engine and the generator. The system also includes a third mobile body configured to support one or more partially assembled components associated with the turbine engine and the generator.

A system includes a first mobile body configured to support a turbine engine and an air intake section coupled to the turbine engine. The system also includes a second mobile body configured to support a generator. The first and second mobile bodies are configured to guide a removable coupling between the turbine engine and the generator. The system also includes a third mobile body configured to support one or more partially assembled components associated with the turbine engine and the generator.

A method of constructing a gas turbine system may include placing a foundation interface of a gas turbine mannequin on a foundation, aligning the gas turbine mannequin with a load and connecting the gas turbine mannequin to the load. The method may include constructing a pipeline and connecting the pipeline to the gas turbine mannequin. The method may include placing a foundation interface of a gas turbine mannequin on a foundation, aligning the gas turbine mannequin with an exhaust structure and connecting the gas turbine mannequin to the exhaust structure. The method also includes removing the gas turbine mannequin and installing a gas turbine.

A structure for delivering a pipe fusion machine may include a base that supports a container. A hose station may be provided in the container. And a swing arm may be mounted on the base for pivot action between a stowed position and an extended position. The delivery structure may be mounted on a motorized vehicle having an on-board hydraulic fluid system. The distal end of the swing arm may support pipe fusion jaws and a pipe facer. The pipe fusion jaws and the pipe facer may be connected to the hose station via hydraulic lines, and the hose station may be connected to the vehicle's on-board hydraulic system. In this way, the vehicle's on-board hydraulic system can power the pipe fusion jaws and the pipe facer.

A structure for delivering a pipe fusion machine may include a base that supports a container. A hose station may be provided in the container. And a swing arm may be mounted on the base for pivot action between a stowed position and an extended position. The delivery structure may be mounted on a motorized vehicle having an on-board hydraulic fluid system. The distal end of the swing arm may support pipe fusion jaws and a pipe facer. The pipe fusion jaws and the pipe facer may be connected to the hose station via hydraulic lines, and the hose station may be connected to the vehicle's on-board hydraulic system. In this way, the vehicle's on-board hydraulic system can power the pipe fusion jaws and the pipe facer.

A multi-functional carriage includes: a support frame provided with wheels; an internal combustion engine able to actuate an air compressor and an electrical current generator. The internal combustion engine, the air compressor and the electrical current generator are installed on-board the support frame. The support frame includes a gripping apparatus able to engage and raise a harnessing frame for various devices.

A multi-functional carriage includes: a support frame provided with wheels; an internal combustion engine able to actuate an air compressor and an electrical current generator. The internal combustion engine, the air compressor and the electrical current generator are installed on-board the support frame. The support frame includes a gripping apparatus able to engage and raise a harnessing frame for various devices.

A drive module which is a self-supporting structure being transferable and hoistable as an integral entity. The drive module includes a self-supporting framework having a shape of a rectangular parallelepiped. The self-supporting framework defines an inner space within the self-supporting framework. The drive module also includes at least two drive units. The drive units are supported to the self-supporting framework in the inner space of the self-supporting framework. The drive units are connectable to an external rotatable shaft for the rotation of the rotatable shaft located outside the drive module.

A drive module which is a self-supporting structure being transferable and hoistable as an integral entity. The drive module includes a self-supporting framework having a shape of a rectangular parallelepiped. The self-supporting framework defines an inner space within the self-supporting framework. The drive module also includes at least two drive units. The drive units are supported to the self-supporting framework in the inner space of the self-supporting framework. The drive units are connectable to an external rotatable shaft for the rotation of the rotatable shaft located outside the drive module.

A securement for crawler cranes and system and method for use of the same are disclosed. In one embodiment of the system, a pair of structural securements are spaced at approximately a track-distance apart with respect to the crawler crane and coupled together by multiple transverse support members. When the crawler crane is driven onto the structural securements and fastened thereto, the tipping fulcrum of the crawler crane is shifted, thereby requiring a greater tipping force to tip and adding stability during high wind events.