The present invention provides support frames for positive pressure blowers having one or more wheels mounted at a lower corner of the frame, wherein the wheels are mounted to roll in a direction that is perpendicular to the flow of air through the blower. This sideways orientation of the wheels allows a frame carrying a blower to be easily moved from side to side, such as when placed into or removed from a side compartment on an emergency vehicle, and allows such a frame carrying a blower to be easily tilted, turned and rolled around at the scene of a fire in much the same manner as a wheelbarrow. Embodiments of the invention may include an upper handle or grip which allows a user to control the frames by tilting and rolling them around on the wheels. Embodiments of the invention may include a support bracket for holding a battery or other power supply.

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 a first mobile body configured to support a turbine engine and an auxiliary skid communicatively and fluidly coupled to the turbine engine. The auxiliary skid includes one or more interconnects configured to support a turbine engine component. The system also includes a second mobile body configured to support a generator. The first and second mobile bodies are configured to align a removable coupling between the turbine engine and the generator.

A modular skid for supporting a machinery assembly. The modular skid includes a skid base with opposing side rails and a support deck extending there between. The modular skid further includes a skid extension and an end cap. The skid extension including an extension support deck having a width corresponding to the width of the skid base. One end of the skid extension is configured to mount to the mounting features of the skid base. At an opposing end of the skid extension, the extension side rails defining extension mounting features of the skid extension. The extension mounting features have a configuration that corresponds to the base mounting features. The end cap includes end cap mounting structures configured to be alternately mounted to the base mounting features or the extension mounting features.

A modular skid for supporting a machinery assembly. The modular skid includes a skid base with opposing side rails and a support deck extending there between. The modular skid further includes a skid extension and an end cap. The skid extension including an extension support deck having a width corresponding to the width of the skid base. One end of the skid extension is configured to mount to the mounting features of the skid base. At an opposing end of the skid extension, the extension side rails defining extension mounting features of the skid extension. The extension mounting features have a configuration that corresponds to the base mounting features. The end cap includes end cap mounting structures configured to be alternately mounted to the base mounting features or the extension mounting features.

The present application provides a mobile selective catalyst reduction system for use at a remote location. The mobile selective catalyst reduction system may include a first trailer with an ammonia delivery system and a tempering air system mounted thereon in whole or in part and a second trailer with a selective catalyst reduction section mounted thereon in whole or in part. The ammonia delivery system, the tempering air system, and/or the selective catalyst reduction section are permanently mounted on the first trailer or the second trailer for use at the remote location

A scraper tractor stand may include a plurality of linear central support beams adapted to be positioned underneath the heavy-duty equipment. A portable first support section may be connected to a respective proximal end of each of the central support beams. The first support section has a first cross-beam registered along a first x-axis. The first cross-beam may be fixedly connected to the heavy-duty equipment. A portable second support section may be connected to a respective distal end of each of the central support beams. The second support section has a second cross-beam registered along a second x-axis. Each of the first and second cross-beams may be independently adjustable along mutually exclusive first and second y-axes respectively. The central support beams may further be coplanar and aligned along a horizontal plane oriented perpendicular to the first and second y-axes respectively.

A portable organizer system, comprising a base, a column coupled to the base, a plurality of receivers coupled to the column, wherein each receiver in the plurality of receivers includes a back element adapted to couple to the column and having a lower edge, and an angled planar element sharing the lower edge of the back element.

A portable organizer system, comprising a base, a column coupled to the base, a plurality of receivers coupled to the column, wherein each receiver in the plurality of receivers includes a back element adapted to couple to the column and having a lower edge, and an angled planar element sharing the lower edge of the back element.

A system and method for providing a selective catalytic reduction system with a doser mounting system. A mounting plate includes an aperture in a surface with a plurality of fastener brackets coupled to the surface. The fastener brackets are positioned about a peripheral portion of the aperture. The fastener brackets each include an opening for inserting a fastener. The opening is elevated from the surface of the mounting plate. The fasteners each have a fastener head and a fastener shaft positioned in the opening of the fastener brackets. The fastener shaft extends from the opening in a direction having an orthogonal component with respect to the surface of the mounting plate. A doser is coupled to the doser mounting system. The fastener shafts extend through openings in legs of the doser. An injector port of the doser is aligned with the aperture in the mounting plate.