Disclosed herein are methods, systems, and devices for preventing condensation during shipping of prefabricated electrical equipment within a plurality of enclosures. In one embodiment, the system includes a first enclosure first monitoring sensor configured to be positioned within a first enclosure of the plurality of enclosures, and a first enclosure climate control device configured to be positioned at least partially within the first enclosure. The system also includes a first enclosure primary side electrical interconnect, a first enclosure secondary side electrical interconnect, and a first enclosure controller. The first enclosure controller is coupled with the first enclosure first monitoring sensor, the first enclosure climate control device, the first enclosure primary side electrical interconnect, and first enclosure secondary side electrical interconnect. The plurality of enclosures may be embedded within a prefabricated electrical distribution center (EDC), a modular data center (MDC), an integrated power skid, an integrated switchboard, or the like.

A fully self-contained, portable product dehydrator is provided comprising: an intermodal container housing an equipment module, the equipment module including a refrigeration equipment chamber proximate the front door and an air conditioning chamber behind the refrigeration equipment chamber, the equipment module retained in the interior and moveable from a retracted position to an extended position, wherein when in the extended position, the refrigeration equipment chamber is substantially exposed to an ambient environment, outside the front door; a heat pump dehumidifier including a subcooler, a desuperheater, electronic expansion valve and a compressor, housed in the refrigeration equipment chamber and at least two condensers and evaporator housed in the air conditioning chamber; a drying chamber, the drying chamber defined by the interior and the rear door; a motor control center; and a control panel; in electronic communication with the heat pump dehumidifier and the fans.

A roll-off tub style container which is leak-proof to prevent liquids in the container from draining onto the ground or roadways. In one embodiment of the invention, the floor of the container has an upwardly and rearwardly extending inclined portion at the rearward end thereof to prevent liquid in the container from coming into contact with the tail gate of the container. In another embodiment of the invention, the rearward end of the container is elevated during transport to prevent liquid in the container from coming into contact with the tail gate. In yet another embodiment of the container, the floor of the container is inclined upwardly and rearwardly from the forward end thereof to the rearward end thereof. A liquid collection tank may be positioned beneath the floor of the container which has an inlet in fluid communication with the interior of the container and a discharge outlet provided thereon to permit liquid in the tank to be selectively drained therefrom.

The present application discloses temperature regulated apparatuses, methods, and computer program products for temperature regulated containers. An example temperature regulated apparatus includes a base container. The base container includes at least a base portion, one or more sidewall portions, and a lid portion. The example temperature regulated apparatus also includes one or more thermoelectric components, where (i) each of the one or more thermoelectric components are configured to be disposed within the interior of the base container, (ii) each thermoelectric component comprises an exterior surface, an interior surface, and a composite semiconductor layer disposed between the exterior surface and the interior surface, and (iii) each thermoelectric component is configured to, in an instance current flows through the thermoelectric component, transfer heat between the interior surface and exterior surface.

A fully self-contained, portable product dehydrator is provided comprising: an intermodal container housing an equipment module, the equipment module including a refrigeration equipment chamber proximate the front door and an air conditioning chamber behind the refrigeration equipment chamber, the equipment module retained in the interior and moveable from a retracted position to an extended position, wherein when in the extended position, the refrigeration equipment chamber is substantially exposed to an ambient environment, outside the front door; a heat pump dehumidifier including a subcooler, a desuperheater, electronic expansion valve and a compressor, housed in the refrigeration equipment chamber and at least two condensers and evaporator housed in the air conditioning chamber, a drying chamber, the drying chamber defined by the interior and the rear door; a motor control center; and a control panel; in electronic communication with the heat pump dehumidifier and the fans.

Apparatuses, methods and computer program products for a temperature regulated container disclosed herein. An example temperature regulated apparatus comprises a base container. The base container includes at least a base portion, one or more sidewall portions, and a lid portion. The temperature regulated apparatus also includes one or more thermoelectric components, wherein (i) each of the one or more thermoelectric components are configured to be disposed within the interior of the base container, (ii) each thermoelectric component comprises an exterior surface, an interior surface, and a composite semiconductor layer disposed between the exterior surface and interior surface, and (iii) each thermoelectric component is configured to, in an instance current flows through the thermoelectric component, transfer heat between the interior surface and exterior surface.

The present invention discloses a container equipment for enclosed transportation and heterotopic and aerobic stabilization of reserved garbage, which includes a container body and a functional lining provided on an inner wall of the container body, wherein the functional lining is provided with a circulating air low-temperature evaporation system, a water distribution and drainage system and a heating and insulating system; the circulating air low-temperature evaporation system includes an air inlet manifold, an air distribution perforated pipe, a base plate water discharge and air distribution groove and a top plate water distribution and air guide groove, an air extraction perforated pipe, a fan, an air outlet pipe and a quicklime dehydration and deodorization system; the water distribution and drainage system includes a percolate feeding pipe, a fiber capillary water distribution pipe, the top plate water distribution and air guide groove, a side drain, a main drain and a percolate discharge pipe; the heating and insulating system includes a base plate hydrothermal manifold, a bottom hydrothermal coil, a peripheral hydrothermal layer, a bottom air insulating layer and a peripheral air insulating layer. The present invention also discloses a method for using the container equipment described above. The present invention achieves a fully-enclosed transportation of solid waste and a heterotopic and aerobic stabilization process.

A cell (1) for storing a set (2) of products (20) includes ventilation means (4) for creating a rear-to-front air flow (A) circulating in the housing (14) and at least one first sealing device (5 or 6) having a first flexible sealing element (50 or 60) that is inflatable in relation to one of the walls (10, 11, 12) of the cell and towards the inside of the housing (14) under the effect of an air pressure which is generated in the housing (14) by said air flow. The first sealing device (5 or 6) has at least one second sealing element (52 or 62) that can be actuated between an inactive configuration and an active configuration in which it exerts a mechanical pressure on part of the first flexible sealing element (50 or 60).

A method for handling bulk products may include placing harvested product into a container and facilitating shipment of the container with the harvested product to an end user of the harvested product without further handling of the harvested product. A container for receiving, drying, shipping, and tracking the products may also be provided.

The present disclosure discloses a box body drainage structure and a container. The box body drainage structure may at least include a box body having a top surface and at least three side surfaces, and a groove is formed at the top surface of the box body. A drainage channel is formed on at least one of the side surfaces, and a top end of the drainage channel is communicated with the groove through a water inlet. The drainage channel is slantwise arranged to allow rainwater in the groove to flow down along an inner wall of the drainage channel to a bottom of the box body.