The present patent discloses a ventilation and heat dissipation box-type substation, which includes a substation box and a substation box roof, and the surroundings of the substation box roof located on the outside of the substation box and not higher than the height of the top of the substation box. The substation box is provided with a return air inlet, and the inside of the substation box roof is provided with an inner top plate that collects the heat in the substation box. A circulation fan is arranged on the top of the inner top plate and forms a circulation cavity with the substation box roof, and one end of the circulation cavity away from the circulation fan is connected with the outside of the substation box. The present patent effectively avoids the accumulation of heat, which affects the service life of electronic components.

The present invention provides a modular, nonconductive barrier assembly for enclosing or partitioning an area. The modular, nonconductive barrier assembly includes a number of wall panels each having multiple nonconductive posts arranged in a common plane and separated by a gap. The nonconductive posts are connected by a number of connecting rods. Each wall panel is arranged in an upright orientation on a support surface. A number of support assemblies each having a base and at least one support arm support the wall panels in an upright orientation. The base of each support assembly is positioned on a support surface, a proximal end of the support arm is releasably connected to the base and a distal end of the support arm is releasably connected to a wall panel to support the same.

A container has an anti-vibration property so that the container does not shake in vibration. The container includes a bottom part, a ceiling part facing the bottom part, a sidewall part connecting the bottom part to the ceiling part, and a rack installed to be fixed in an inner space that is surrounded by the bottom part, the ceiling part, and the sidewall part.

An environmental enclosure is disclosed. The environmental enclosure may include sidewalls defining an enclosure volume, each of the sidewalls having an internally facing surface and an externally facing surface, and a solar shield comprising a reflective surface. The solar shield is spaced a first distance externally from the enclosure volume and is connected to a sidewall. The first distance defines a portion of a flow area that is configured to produce stack effect draft.

An environmental enclosure is disclosed. The environmental enclosure may include sidewalls defining an enclosure volume, each of the sidewalls having an internally facing surface and an externally facing surface, and a solar shield comprising a reflective surface. The solar shield is spaced a first distance externally from the enclosure volume and is connected to a sidewall. The first distance defines a portion of a flow area that is configured to produce stack effect draft. Further specialized civil works are also disclosed. Additional devices, systems, and methods are contemplated in the patent disclosure herein, including panel soiling detection and mitigation, cathodic protection, thermal management features, each including unique automation so that they may be used unattended in remote regions.

A containerized power flow control system is described, for attachment to a power transmission line or substation. The system includes at least one container that is transportable by road, rail, sea or air. A plurality of identical impedance injection modules is operable while mounted in the container, wherein each of the modules is configurable to inject a pre-determined power control waveform into the power line.

A containerized power flow control system is described, for attachment to a power transmission line or substation. The system includes at least one container that is transportable by road, rail, sea or air. A plurality of identical impedance injection modules is operable while mounted in the container, wherein each of the modules is configurable to inject a pre-determined power control waveform into the power line.

The invention relates to a data center for IT and/or telecoms equipment, especially servers, comprising a building with an intermediate floor arranged for carrying IT and/or telecoms equipment, especially servers, as well as cooling means for cooling the IT and/or telecoms equipment, especially servers, in order to counteract overheating of the IT and/or telecoms equipment, especially servers.

The invention relates to a data center for IT and/or telecoms equipment, especially servers, comprising a building with an intermediate floor arranged for carrying IT and/or telecoms equipment, especially servers, as well as cooling means for cooling the IT and/or telecoms equipment, especially servers, in order to counteract overheating of the IT and/or telecoms equipment, especially servers.

Systems, methods, and building block modules for modular power generation facilities are disclosed. A modular power generation facility includes a plurality of primary modules and a control system. Each primary module includes eight primary corners and an interior space. The modules are positioned in a vertical stack and are attached together to form a substantially modular enclosure for the generation of electricity. The modules include gen-set modules, each having an engine-generator and a fuel tank disposed in the interior, and a switchgear module having switchgear ganged to the gen-set modules. The control system communicates with the gen-set modules to coordinate the engine-generators as a unit and to control the loading of each of the generators in response to a power load demand. The control system is disposed in one or more of the primary modules with at least part of the control system being disposed in the switchgear module.