| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 165065000 | Heater and cooler serially arranged | 7 |
| 20080223549 | Air-Conditioning Device, in Particular for a Motor Vehicle - The invention relates to an air-conditioning device ( | 09-18-2008 |
| 20080236786 | MICRO FLUID DEVICE - A micro fluid device in which a plurality of units with fine channel therein are integrally coupled together to bring the fine channels of the units into communication with each other to cause fluid to flow into the fine channels to perform desired unit operations, and at least one of the plurality of units is a temperature controlling unit for controlling the temperature of the fluid, comprises: a heat insulator which has a through hole equal in diameter to the fine channels and is interposed between the temperature controlling unit and an adjacent unit substantially adjacent to the temperature controlling unit; and a positioning mechanism which positions the heat insulator so as to bring the fine channels into communication with the through hole at the time of coupling the units. | 10-02-2008 |
| 20110030918 | Method and Device for Heating, In Particular Highly Viscous Products - A method for heating, in particular of highly viscous products, and a device for performing the method, wherein the product is pre-heated to a first temperature T1 in a first step with at least one product/water heat exchanger section with water as the heating medium, wherein the water cools down. The product is further heated to a second temperature T2 in a second step with at least one product/product heat exchanger section | 02-10-2011 |
| 20120312501 | METHOD AND APPARATUS FOR TREATMENT OF SELF-ASSEMBLABLE POLYMER LAYERS FOR USE IN LITHOGRAPHY - Treatment of a layer comprising self-assemblable polymer at a surface of a substrate is disclosed. In an embodiment, the treatment includes arranging a zone of temperature change to sweep across the layer, wherein a temperature of the layer within the zone differs from an initial temperature of the layer prior to passage of the zone. | 12-13-2012 |
| 20130140000 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD FOR PERFORMING HEAT TREATMENT ON SUBSTRATE - Each of substrates which are sequentially loaded into an apparatus is transferred to one of empty (available) cooling units, and the cooling unit is reserved as a unit to be used for performing a cooling treatment after a post-exposure bake process for the substrate and the reservation information is stored. After one of the cooling units is reserved in advance before the post-exposure bake process, the substrate is transferred from the cooling unit to one of heating units without being subjected to a cooling treatment and is subjected to a post-exposure bake process therein. After the post-exposure bake process, the substrate is transferred from the heating unit to the reserved cooling unit which is reserved in advance and subjected to a cooling treatment therein. | 06-06-2013 |
| 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 |
| 165066000 | Heat exchange between supply and exhaust lines | 1 |
| 20120018124 | SOLID MATRIX TUBE-TO-TUBE HEAT EXCHANGER - A heat exchanger includes a heat-exchange section including a first group of tubes and a second group of tubes alternating with the first group of tubes. The first and second groups of tubes are in contact with a heat-conductive medium. In one structure, a first inlet manifold at a first end of the heat-exchange section is fluidly coupled to first ends of the first group of tubes. A first outlet manifold is isolated from the first inlet manifold and is fluidly coupled to first ends of the second group of tubes. A second inlet manifold at a second end of the heat-exchange section is fluidly coupled to second ends of the second group of tubes. A second outlet manifold is isolated from the second inlet manifold and is fluidly coupled to second ends of the first group of tubes. | 01-26-2012 |
