The invention relates to a polyamide composition comprising: a. A semi-crystalline polyamide; b. An impact modifier in an amount ranging from 1 wt % to 50 wt %; c. A branching agent in an amount ranging from 0.01 to 6.0 wt %; d. An inorganic stabilizer in an amount ranging from 0.01 wt % to 2.0 wt %; e. An organic stabilizer E1 comprising a primary antioxidant group in an amount ranging from 0.01 wt % to 2.0 wt and an organic stabilizer E2 comprising a hindered amine group in an amount ranging from 0.01 wt % to 4.0 wt %; or an organic stabilizer E3 comprising a primary antioxidant group and a hindered amine group in an amount ranging from 0.02 to 6.0 wt %; or a combination of E1, E2 and E3 in a total amount of 0.02 to 6.0 wt %; wherein all wt % are based on the total amount of polyamide composition. The invention also relates to a process for preparing a container by blow molding this composition, as well as use of the container in various applications.

The invention relates to a system for supplying a gaseous fuel that comprises a low temperature tank for receiving the fuel in its liquid aggregate state achieved by cooling and comprises a rail that is fluidically connected to at least one injector device for discharging gaseous fuel into a combustion space. The system is characterized in that it has a pressure store that is configured to receive gaseous fuel and that is fluidically connectable to both the low temperature tank and the rail to buffer fuel coming from the low temperature tank and to supply it to the rail.

A storage tank having a wire or wire winding embedded in the wall of the storage tank is disclosed. The wire may be positioned such that it is compromised if the storage tank is deformed to a certain degree. The wire, for example, may form a helical shape proximate to the outer surface of the wall of the storage tank.

A mounting system for a machine includes a tank support structure adapted to mount tanks proximate to an operator cabin of the machine, a first mounting bracket fixedly coupled to the tank support structure, and a second mounting bracket adapted to be removably coupled to the first mounting bracket. The tank support structure defines a hollow space. The tanks are received within the hollow space. The tank support structure includes a first surface and a second surface spaced apart from the first surface. The hollow space is defined between the first surface and the second surface. The first surface is configured to be coupled to a portion of the machine for mounting the tank support structure on the machine. The first mounting bracket and the second mounting bracket are adapted to receive a section of the tanks for retaining the tanks within the tank support structure.

A high pressure container system is equipped with an upstream side pressure sensor that measures an internal pressure of high pressure containers upstream of a pressure regulating valve, a plurality of downstream side pressure sensors that measure the pressure of the fluid downstream of the pressure regulating valve, and a control device. At a normal time of the downstream side pressure sensors, a control device monitors the internal pressure of the high pressure containers on the basis of the measured values of the downstream side pressure sensors, and at an abnormal time when any one of the downstream side pressure sensors is abnormal, the control device monitors the internal pressure of the high pressure containers on the basis of the measured values of the downstream side pressure sensors, and the measured value of the upstream side pressure sensor.

An electrically driven automobile with a power pack and retrofit thereof. An electric power pack in an electrically powered automobile is provided for retrofit where part of the batteries are substituted by a fuel cell system in order to extend the travelling range of the automobile.

Methods, systems, and apparatus for monitoring a cylinder. The system includes a plurality of sensors connected to the cylinder and configured to detect deformation data associated with the cylinder. The system includes a controller communicatively coupled to the plurality of sensors. The controller is configured to determine a damage value based on the detected deformation data when the cylinder endures impact damage. The controller is configured to communicate a notification when the damage value exceeds an impact damage threshold. The system includes a filling controller communicatively coupled to the plurality of sensors. The filling controller is configured to control a valve for filling the cylinder with a fluid. The filling controller is configured to detect damage to the cylinder above a specified threshold as the cylinder is filled with the fluid. The filling controller is configured to automatically perform a safety action when the damage to the cylinder is detected.

A vehicle body includes a floor assembly having a center floor and a rear floor, a pair of side structures connected to both sides of the floor assembly, and a pair of side sills connected to both side edges of the floor assembly, wherein each side sill includes an inner side sill facing an interior of the vehicle body, an outer side sill facing an exterior of the vehicle body, and first and second side sill reinforcements disposed between the inner side sill and the outer side sill, and wherein a rear end portion of the first side sill reinforcement overlaps a front end portion of the second side sill reinforcement.

The present disclosure provides a gas storage device. In an embodiment, the gas storage device includes a cylinder with opposing ends. An endcap is present at each end. The cylinder and the endcaps form an enclosure. Each endcap includes a connector. A diaphragm is located in the enclosure. The diaphragm includes an annular sidewall. The device includes an inner chamber defined by an inner surface of the sidewall, and a storage space between an interior surface of the cylinder and an outer surface of the sidewall. A metal hydride composition is located in the storage space.

The invention relates to a vehicle comprising a chassis having an upper frame plate and a lower frame plate. Between the upper frame plate and the lower frame plate there is provided a traction battery pack arrangement comprising one or more battery modules, and a hydrogen tank structure comprising one or more hydrogen tanks. The hydrogen tank structure is vertically tightened to the traction battery pack arrangement, so that one of the hydrogen tank structure and said traction battery pack arrangement is located on top of the other. At least one of the hydrogen tank structure and the traction battery pack arrangement is tightened to one of the upper and lower frame plates.