A liquefied gas unloading and deep evacuation system may more quickly, more efficiently and more completely unload liquefied gases from transport tanks, such as rail cars, into stationary storage tanks or into truck tanks. The system may utilize a two stage compressor, an electric motor, a variable frequency drive, a four way valve, a three way valve, a two way valve, a programmable logic controller based control system and pressure and temperature transmitters. The valving enables deep evacuation of the transport or supply tank to more completely empty the transport tank. The programmable logic controller and variable speed drive may be used to variably control the speed of the two stage compressor so that the system may be running as fast as possible during changes in ambient temperature and/or different stages of offloading the liquefied gases without exceeding the compressor's horsepower limit.

An LNG fueling station according to the present invention includes: an installation part on which an LNG tank container is installed, and a supply part for supplying liquefied natural gas from the LNG tank container installed on the installation part to an object for supply, wherein the LNG tank container can be transported and installed while storing the liquefied natural gas, and the LNG tank container is transported to the installation part and then installed on the installation part.

A telescopic conveyor includes a conveyor boom having two or more conveyor sections adapted to be extended and retracted with respect to one another in telescopic fashion to adjust the length of the boom, wherein the two or more conveyor sections are each curved about a common axis of curvature.

Systems and devices are provided for loading a transportation unit. The system includes a pallet rack unit. The pallet rack unit is configured to receive and support loaded pallets. The pallet rack unit is configured to be loaded into the transportation unit with other pallet rack units that are substantially identical to the pallet rack unit. The pallet rack unit and the other pallet rack units, together, substantially fill a length and a width of the transportation unit. The pallet rack unit includes a base configured to receive a first loaded pallet. The pallet rack unit is further configured to be forkliftable. The pallet rack unit includes a plurality of posts coupled to the base and at least one height adjustable shelf coupled to the posts. The at least one height adjustable shelf is configured to receive and support a second loaded pallet. Additional shelves may be used to handle additional loaded pallets.

A liquefied gas unloading and deep evacuation system may more quickly, more efficiently and more completely unload liquefied gases from transport tanks, such as rail cars, into stationary storage tanks or into truck tanks. The system may utilize a two stage compressor, an electric motor, a variable frequency drive, a four way valve, a three way valve, a two way valve, a programmable logic controller based control system and pressure and temperature transmitters. The valving enables deep evacuation of the transport or supply tank to more completely empty the transport tank. The programmable logic controller and variable speed drive may be used to variably control the speed of the two stage compressor so that the system may be running as fast as possible during changes in ambient temperature and/or different stages of offloading the liquefied gases without exceeding the compressor's horsepower limit.

A transportation system and method for transporting cargo containers and/or passenger containers between one or more locations includes terminal facilities having a small footprint, e.g., three to six acres (12,140.6 to 24, 281.1 square m). Cargo containers and/or passenger containers can be stored at terminal facilities. Cargo and/or passenger container vehicles and automated guidance vehicles can be maintained and recharged at terminal facilities. The transportation system and method preferably combine aspects of hyperloop technology with both monorail and traditional rail technologies and includes an on-demand movement of automated or manual individual vehicles or trainsets carrying shipping containers and/or passenger containers along a dedicated track or transportation line. The system and method can combine automated and manual operations and preferably includes: electrically-powered vehicles that are propelled by magnetic levitation, conventional electric power, and/or linear electric propulsion and designed to transport shipping containers and passenger containers along the same line; load/unload zones; maintenance zones; recharge zones; storage zones, turntables for negotiating tight right-of-way scenarios; forecasting/alleviating ground settlement effects; and refrigerated container movement.

A transfer arrangement for transferring a semi-trailer onto an intermodal pocket wagon from a ground location beside the wagon, or vice versa, may include base roller beams of a first lifting mechanism supported by the ground at the ground location and intended for lifting the semi-trailer up from the ground. Corresponding wagon roller beams of a second lifting mechanism may be supported by the rail or the ground under the wagon. The wagon roller beams may be elevated to substantially the same height as the base roller beams or lowered towards the ground. A transfer mechanism may be provided for transferring the semi-trailer sideways from the first lifting mechanism to the second lifting mechanism in the elevated condition thereof.

A system, method, and apparatus for palletizing cargo on a rack for shipment are provided. The system generally includes a tiered rack having a base tier, a support framework extending from the base tier, and a second tier adjustably attached to the support framework. The system may further include a plurality of lower frame support members positioned longitudinally across the bottom of the base tier, and a plurality of pneumatically actuated rollers spaced to cooperatively engage the plurality of lower frame support members, the rollers being selectively extendable from a plurality of raised tracks positioned longitudinally along a floor of the railcar, where the rollers are configured to pneumatically extend past an upper surface of the track when actuated and allow for linear motion thereover.

A telescopic conveyor includes a conveyor boom having two or more conveyor sections adapted to be extended and retracted with respect to one another in telescopic fashion to adjust the length of the boom, wherein the two or more conveyor sections are each curved about a common axis of curvature.

A system, method, and apparatus for palletizing cargo on a rack for shipment are provided. The system generally includes a tiered rack having a base tier, a support framework extending from the base tier, and a second tier adjustably attached to the support framework. The system may further include a plurality of lower frame support members positioned longitudinally across the bottom of the base tier, and a plurality of pneumatically actuated rollers spaced to cooperatively engage the plurality of lower frame support members, the rollers being selectively extendable from a plurality of raised tracks positioned longitudinally along a floor of the railcar, where the rollers are configured to pneumatically extend past an upper surface of the track when actuated and allow for linear motion thereover.