A system for using a heated portable vacuum slurry box to efficiently store and transport material including drill cuttings from gas and oil well sites. The slurry box generally includes a vacuum tank, a structure attached to the tank, a vertical tailgate, and a hook for pulling the slurry box onto a vehicle. The features allow for the slurry box to meet space restriction requirements at a well site while functioning within the environmental conditions of winter and summer seasons. The system includes a preferred method to unload the slurry box.

A system for using a heated portable vacuum slurry box to efficiently store and transport material including drill cuttings from gas and oil well sites. The slurry box generally includes a vacuum tank, a structure attached to the tank, a vertical tailgate, and a hook for pulling the slurry box onto a vehicle. The features allow for the slurry box to meet space restriction requirements at a well site while functioning within the environmental conditions of winter and summer seasons. The system includes a preferred method to unload the slurry box.

Embodiments of a large container may include a container base and a circumferential container wall. An upper end of the wall is closed by a container cover in the form of a metal disc. An annular, circumferential support element is secured at an upper end region of the wall. The disc spans the upper open end of the container wall. A lower side of the disc is welded to the support element and/or to the upper end region of the container wall by a continuous first welding seam. An upper side and/or an edge of the disc is welded to the support element by a continuous second welding seam. The first and second weld seams have respective first and second roots which merge into one another or at least come together.

Cover systems for storage tanks, such as those containing at least some petroleum. Pipe retention systems for retaining pipes to storage tanks, such as pipes that can transmit liquid containing at least some petroleum. Methods of attaching cover systems to tanks.

Cover systems for storage tanks, such as those containing at least some petroleum. Pipe retention systems for retaining pipes to storage tanks, such as pipes that can transmit liquid containing at least some petroleum. Methods of attaching cover systems to tanks.

Provided is a tank container which can accommodate and transport powder formed of hazardous material powder or the like while suppressing the contact of the powder with moisture in the air and an increase in temperature to a temperature equal to or higher than a predetermined temperature, and which can also easily discharge the powder, and a method of manufacturing the tank container. A tank container includes: a tank main body portion formed into an airtight cylindrical shape, which is configured to accommodate powder therein, and which is closed at both ends along a longitudinal direction; a plurality of accommodation and discharge portions, which are arranged so as to be adjacent to each other along the longitudinal direction in a lower portion of the tank main body portion, which have base end portions each airtightly joined to an inner wall of the tank main body and to an adjacent portion, and which have distal end portions each formed into an inverted tapered shape so as to protrude outward respectively from openings formed on an outer peripheral surface of the tank main body portion; a heat insulating portion formed on the outer peripheral surface of the tank main body portion; and a container frame portion having the tank main body portion fixed thereto.

Provided is a tank container which can accommodate and transport powder formed of hazardous material powder or the like while suppressing the contact of the powder with moisture in the air and an increase in temperature to a temperature equal to or higher than a predetermined temperature, and which can also easily discharge the powder, and a method of manufacturing the tank container. A tank container includes: a tank main body portion formed into an airtight cylindrical shape, which is configured to accommodate powder therein, and which is closed at both ends along a longitudinal direction; a plurality of accommodation and discharge portions, which are arranged so as to be adjacent to each other along the longitudinal direction in a lower portion of the tank main body portion, which have base end portions each airtightly joined to an inner wall of the tank main body and to an adjacent portion, and which have distal end portions each formed into an inverted tapered shape so as to protrude outward respectively from openings formed on an outer peripheral surface of the tank main body portion; a heat insulating portion formed on the outer peripheral surface of the tank main body portion; and a container frame portion having the tank main body portion fixed thereto.

Systems and methods are described for securely monitoring a shipping container for an environmental anomaly using elements of a wireless node network of sensor-based ID nodes disposed within the container and a command node associated with the container. The method has the command node identifying which of the ID nodes are confirmed as trusted sensors based upon a security credential specific to each of the ID nodes; monitoring only the confirmed ID nodes for sensor data broadcast those ID nodes; detecting the anomaly based upon the sensor data from at least one of the confirmed ID nodes; automatically generating an alert notification related to the detected environmental anomaly for the shipping container; and transmitting the alert notification to the external transceiver to initiate a mediation response related to the detected environmental anomaly.

Systems and methods are described for securely monitoring a shipping container for an environmental anomaly using elements of a wireless node network of sensor-based ID nodes disposed within the container and a command node associated with the container. The method has the command node identifying which of the ID nodes are confirmed as trusted sensors based upon a security credential specific to each of the ID nodes; monitoring only the confirmed ID nodes for sensor data broadcast those ID nodes; detecting the anomaly based upon the sensor data from at least one of the confirmed ID nodes; automatically generating an alert notification related to the detected environmental anomaly for the shipping container; and transmitting the alert notification to the external transceiver to initiate a mediation response related to the detected environmental anomaly.

The techniques described herein relate to an apparatus that includes an ISO shipping container with a steel frame and a corrugated profile, a removable reflective material covering at least 75% of at least one surface of the ISO shipping container, and adhesive to connect the reflective material to the ISO shipping container. A method for shipping hygroscopic products is also described, where the method includes loading the hygroscopic products into an ISO shipping container, sealing the ISO shipping container, covering a roof of the ISO shipping container with a reflective material by pushing the ISO shipping container under a roller rolling out the reflective material onto the ISO shipping container, adhering the reflective material to the ISO shipping container with an adhesive, transporting the ISO shipping container to a destination, removing the reflective material from the ISO shipping container, unsealing the ISO shipping container, unloading the hygroscopic products from the ISO shipping container, and providing to the recipient of the hygroscopic products with the physical and chemical time series of the measurements captured during the storage and the transport of the ISO shipping container.