Abstract: An inner 11 for lining a mixing vessel 1 comprising a feed opening 4 on the upper side and a flange 5 projecting outward in the radial direction and on the lower side a discharge duct 8 with a discharge flap valve 23 that can be adjusted from an open position into a closed position and vice versa, which mixing vessel 1 with bulk material introduced into it for the process of blending can be connected onto a mixing head 18 of an industrial blender 19, said mixing supporting one or multiple mixing tool(s), which inner liner 11 bears a supporting flange joint 17 on the upper side projects outward in the radial direction, and, when inserted into the mixing vessel 1, comes to bear against the flange 5 of the mixing vessel 1 and on its bottom side comprises a discharge duct extension 14, projecting into the discharge duct 8 of the mixing vessel 1, which projects into the discharge duct 8 of the mixing vessel 1 with a length that is at least sufficient to reach the discharge flap valve 23 when it is the closed posit

Abstract: Embodiments of the present invention relate generally to systems and methods for preventing mineral scale deposits in an aircraft water system, and more specifically, within devices and water transport systems, such as coffeemakers and other galley equipment, as well as the water lines themselves.

Abstract: Salt rich undrinkable water can be freshened by, and by adjustment of various factors can indeed be freshened to the point of being drinkable by, introducing galvanic couple particles in the salt rich undrinkable water within inside a main processor, controlling pressure inside the main processor to build substantial internal pressurization due to the reaction of the salt rich undrinkable water with the galvanic couple particles into a metallic compound while releasing hydrogen and while releasing heat of reaction, and, collecting a water stream from the main processor through reverse osmosis media that is pressurized due to the internal pressurization inside the main processor. Whereby the water stream that is collected past the reverse osmosis media is fresher than the inputted salt rich undrinkable water.