Class / Patent application number | Description | Number of patent applications / Date published |
096221000 | COLD WALL-HOT WALL THERMAL DIFFUSION-TYPE SEPARATOR | 10 |
20090020015 | Device for Supplying Domiciliary and Ambulatory Oxygen - Device for supplying domiciliary and ambulatory oxygen, comprising an oxygen filling station and a portable oxygen reserve that can be selectively connected to the filling station, the filling station comprising an oxygen concentrator intended to isolate gaseous oxygen from the air, a liquefier connected to one outlet of the concentrator to receive the isolated gaseous oxygen so that it can be liquefied, a transfer connector connected to one outlet of the liquefier and intended to be connected to an inlet connector of the reserve, the reserve comprising a tank connected to the inlet connector so that liquid oxygen can be transferred from the filling station to the tank, a delivery system comprising members for tapping off, heating and regulating the flow of the oxygen from the tank so as to deliver gaseous oxygen to a patient, the oxygen supply device comprising a gaseous oxygen outlet connector intended to be connected to the airways of a patient, the said oxygen outlet connector being situated on the portable oxygen reserve downstream of the delivery system, characterized in that it comprises a single gaseous oxygen outlet connector intended to be connected to the airways of a patient, the said single connector being situated on the portable oxygen reserve so that the patient has to remain constantly connected to the reserve in order to be supplied with gaseous oxygen both when the reserve is connected to the filling station and when it is not, so that the patient can remain constantly connected to the reserve and supplied with gaseous oxygen thereby, that is to say both when the reserve is connected to the filling station and when it is not. | 01-22-2009 |
20090038479 | Device for Drying Compressed Gas - Device for drying a compressed gas in a non-dissipative manner, which mainly consists of a compressed gas supply ( | 02-12-2009 |
20100170400 | Waste gas system for bioreactors - The invention relates to a waste gas system for bioreactors having a hydrophobic sterile filter, arranged at the end, and a heat exchanger which protects the sterile filter against blocking by liquid media. The gas outflow duct for discharging waste gas from a bioreactor vessel is divided in a cooling zone of the heat exchanger into a multiplicity of subducts and is extended in a heating zone of the heat exchanger to a calming zone. Due to the multiplicity of subducts, a considerably larger surface area for the removal of heat from the waste gas is available, with the result that in the case of laminar flow of the waste gas through the subducts a high effectiveness of the separation of liquids from the waste gas can be achieved. In the heating zone, the waste gas can heat up again due to the reduced flow rate until it reaches the hydrophobic sterile filter by way of taking up heat from the surroundings to a such a degree that the relative vapor contents are below 100% and separation of liquids from residual vapors at or in the hydrophobic sterile filter is precluded. | 07-08-2010 |
20100300297 | Impactor with De-Icing - An inertial gas-liquid impactor separator has a de-icer for preventing ice accumulation at the acceleration nozzles. A heater heats a nozzle plate to minimize plugging of acceleration nozzles otherwise due to icing. | 12-02-2010 |
20100313764 | Apparatus and Method for Collecting Residual Products for FPD and Semiconductor - An apparatus for efficiently collecting reaction by-products in exhaust gases of a semiconductor processing or flat panel display processing device is provided. The collection apparatus includes a heating section connected to a process chamber of the semiconductor processing or flat panel display processing device. The heating section is designed to preheat the reaction by-products to prevent or reduce liquefaction of the reaction by-products. A by-product pile up section then rapidly cools the heated reaction by-products to convert the same into a solid form. | 12-16-2010 |
20110041694 | SELF-HEATED DENSE CERAMIC TUBES FOR SEPARATING GASES - A device for at least one self-heated and dense ceramic tube for gas separation. The device includes at least one dense ceramic tube in an environment accessible to a mixture of gases, the at least one tube acting as a diffusion membrane for separating at least one gas from the mixture of gases. Two electrical contacts are provided which allow connecting a power supply to the ceramic tube and driving an electric current through the ceramic tube. The contacts can be in the farm of short coils wrapped around the ceramic tube at difference places. When a voltage is applied to the contacts, an electrical current flows from one contact to the other through the ceramic tube. The current in the ceramic tube heats the tube. Thus, the tubes heat themselves. The hot tube allows separating a gas from the mixture of gases. The driving force for the diffusion is achieved by a pressure difference generated by pumping at the side of the separated gas and pressing at the side of the mixture of gases. | 02-24-2011 |
20120204727 | THERMALLY ISOLATED WALL ASSEMBLY - A wall assembly ( | 08-16-2012 |
20130019753 | System and Method for Separation of Captured Gases from Exhaust - In one example, we discuss the separation of the captured gases as byproducts, for future/other purposes, coming from conventional power generators or factories or from algae biofuel production facility (or any other similar sources). This increases the energy production, saves the environment, conserves the resources, improves the air quality, reduces the global warming, increases water supply, reduces the cost, and improves agriculture and food resources, around the globe. In one example, we discuss the biofuel production, method, and system. | 01-24-2013 |
20130104741 | PIPE AND CONDENSATE BOUNDARY FILM COLLECTION AND DRAINAGE DEVICE FOR INSTALLATION IN SAID PIPE | 05-02-2013 |
20140190354 | DEBINDER TRAP - A debinder trap for treating binder gas thermal-cracked in sintering process of metal injection molding includes a barrel body defining an inflow hole, a drain hole, an inlet and an outlet, baffles disposed in the barrel body to define a guide channel of which entrance and exit are communicated with the inlet and the outlet, and a temperature controller containing liquid material therein and connected with the barrel body via an inflow pipe and a drain pipe connecting in the inflow hole and the drain hole. An accommodating channel passes through the inside of the barrel body and extends from the inflow hole to the drain hole. The temperature controller conveys the liquid material in the accommodating channel to regulate internal environment of the barrel body into low-temperature to condense the binder gas through the guide channel into solid, and high-temperature to make the solid binder molten to sink. | 07-10-2014 |