SorTech AG Patent applications |
Patent application number | Title | Published |
20140367071 | METHOD AND APPARATUS FOR EXECUTING AN ALTERNATING EVAPORATION AND CONDENSATION PROCESS OF A WORKING MEDIUM - The invention relates to a method for executing an alternating evaporation and condensation process of a working medium on a heat transfer surface provided simultaneously as an evaporation and condensation surface. The method is characterized in that, during a respective operating cycle from in each case an condensation process and in each case an evaporation process, a condensate film of the working medium which forms during the condensation process is stored permanently in situ on the heat transfer surface and is then evaporated from the heat transfer surface during the evaporation process. In terms of the apparatus, the heat transfer surface ( | 12-18-2014 |
20140298832 | METHOD FOR OPERATING A CYCLICAL THERMAL ADSORPTION HEATING OR REFRIGERATION SYSTEM, AND DEVICE - The invention relates to a method and a device for operating a cyclical thermal adsorption heating or refrigeration system having a desorption phase and an adsorption phase, comprising at least one adsorber/desorber unit (A/D), a refrigerant cyclically adsorbed during the adsorption phase and desorbed during the desorption phase, and an evaporator/condenser unit (V/K) that acts as an evaporator (V) or as a condenser (K) depending on the process phase. The method and the device intended for carrying out the method are characterized by a cyclic heat recovery that occurs at the same time in a heat recovery circuit having a temporary store (ZS) and a heat transfer medium, comprising the following steps. At the end of the desorption phase, the heat transfer medium having a low temperature is brought from the temporary store into thermal contact with the evaporator/condenser unit, and at the same time the hot heat transfer medium is transferred from the evaporator/condenser unit into the temporary store in a first temporary storage phase. At the end of the adsorption phase, the heat transfer medium having the higher temperature is brought from the temporary store into thermal contact with the evaporator/condenser unit. At the same time, the cold heat transfer medium is transferred from the evaporator/condenser unit into the temporary store in a second temporary storage phase. | 10-09-2014 |
20130220576 | ADSORPTION APPARATUS COMPRISING A HEAT RECOVERY SYSTEM - An adsorption apparatus having at least a first and second adsorber unit, each of which is connected to a feed line and return line. Each adsorber unit operates alternately in a desorption phase as a desorber wherein heat is dissipated from the heat transfer medium to the desorber, and in an adsorption phase as an adsorber wherein heat is dissipated from the adsorber to the medium. A heating circuit having a heat source for heating the heat transfer medium and a cooling circuit having a heat sink for cooling the medium are provided. A control unit alternately switches the feed and return lines individually between the heating circuit and the cooling circuit in such a way that the return line with the highest temperature supplies heat transfer medium to the heating circuit. | 08-29-2013 |
20120108415 | METHOD FOR FORMING AN ALUMINOSILICATE-ZEOLITE LAYER ON A METAL SUBSTRATE, THE COATED SUBSTRATE AND THE USE THEREOF - A method is described for forming an aluminosilicate-zeolite layer on an aluminium-containing substrate which is transferred into an aqueous reaction dispersion containing silicon and optionally aluminium as network-forming elements, wherein, irrespective of whether or not aluminium is present in the aqueous reaction dispersion, the molar ratio of the aluminium in the aqueous reaction dispersion, optionally 0, to the sum of the designated network-forming elements contained in the aqueous reaction dispersion ranges between 0 and about 0.4, the aqueous reaction dispersion containing the aluminium-containing substrate is heated, and aluminium is extracted from the aluminium-containing substrate for the aluminosilicate-zeolite formation process, and the layer of an aluminosilicate-zeolite is formed on the aluminium-containing substrate by in situ direct crystallization. This method is characterized in that a layer of an aluminium-rich aluminosilicate-zeolite having an Si/Al ratio of lower than 5 is formed on the aluminium-containing substrate by introducing into the aqueous reaction dispersion a Si source in an amount sufficient for forming the Si/Al ratio of lower than 5, and an Al source that meets the requirement of the molar substoichiometric value, and the aluminium-containing metal substrate, wherein the pH value of the aqueous reaction dispersion is alkalinized and the layer of the aluminium-rich aluminosilicate-zeolite is crystallized onto the aluminium-containing metal substrate. | 05-03-2012 |
20110167842 | ADSORPTION APPARATUS COMPRISING A HEAT RECOVERY SYSTEM - The invention relates to an adsorption machine, comprising
| 07-14-2011 |
20110138824 | METHOD FOR CARRYING OUT A HEAT TRANSFER BETWEEN ALTERNATELY WORKING ADSORBERS AND DEVICE - The invention relates to a method for carrying out a heat transfer between alternately working adsorbers (Ad | 06-16-2011 |
20110005246 | METHOD FOR CONTROLLING THE POWER OF A SORPTION REFRIGERATION SYSTEM AND DEVICE THEREFOR - The invention relates to a method for controlling the power of a sorption refrigeration system, comprising an adsorber unit, a condenser (C), and an evaporator (E) through which a cooling carrier fluid (KT) flows, with alternating application of the adsorber unit by a valve unit (HV_IN, HV_OUT) operated via a controller, having a circuit process of at least one sorption phase and at least one heat recovery phase, wherein a measurement of a current cooling carrier outlet temperature (T | 01-13-2011 |
20100293989 | COMPACT SORPTION COOLING UNIT - The invention relates to a compact sorption cooling unit, comprising at least one adsorber/desorber unit ( | 11-25-2010 |
20100136326 | LAYER COMPOSITE AND PRODUCTION THEREOF - The invention relates to a method for production of a layer composite, comprising a metal support substrate and a silicate layer with the following method steps: a) production of the metal support substrate, b) production of silicate crystals and/or silicate particles by means of solvothermal synthesis, said solvothermal synthesis being carried out in at least one ionic liquid and c) coating of at least one surface of the metal support substrate with the silicate crystals and/or silicate particles produced in b). | 06-03-2010 |
20090217526 | METHOD FOR PRODUCING AN ADSORPTION HEAT EXCHANGER - The invention relates to a method for producing an adsorption heat exchanger, which is characterized by the following Steps: producing a heat exchanger structure; forming an adhesive layer ( | 09-03-2009 |