| Document |
Document Title |
|
WO/2009/134957A2 |
An absorptive refrigeration method that employs a refrigerant comprising one or more hydrofluoroolefin or hydrochlorofluoroolefin refrigerants, and an oil selected from the group consisting of a polyalkyene glycol oil, a poly alpha olefi...
|
|
WO/2009/114169A2 |
A cooling, heating and power system (10) includes a prime mover (12) for producing electricity having a thermal output (18) and an electrical output (20) coupled to an absorption chiller (24). A part-load, active, redundant chiller (26) ...
|
|
WO/2009/114169A3 |
A cooling, heating and power system (10) includes a prime mover (12) for producing electricity having a thermal output (18) and an electrical output (20) coupled to an absorption chiller (24). A part-load, active, redundant chiller (26) ...
|
|
WO/2009/105967A1 |
An adsorption device and a method for regenerating the adsorbent using the device. The adsorption device comprises an adsorption tower (20) and a device (10) supplying a desorption gas. The device (10) supplying a desorption gas comprise...
|
|
WO/2009/105092A1 |
A refrigerant vapor compression system includes a first compression device, a refrigerant heat rejection heat exchanger, an expansion device, a refrigerant heat absorption heat exchanger, a second compression device, and a refrigerant-to...
|
|
WO/2009/097857A1 |
The present invention relates to a method for recovery of heat from recovery of carbon dioxide from gaseous sources. More particular, the invention relates to a method for recovery of heat where carbon dioxide is recovered in a chemical ...
|
|
WO/2009/098155A1 |
The invention relates to an absorption type refrigerating machine comprising a working medium that contains a non-volatile sorption agent and a volatile cooling agent, and an absorber in which a cooling agent comprising a vapour phase an...
|
|
WO/2009/094896A1 |
An evaporating system and an evaporating-concentrating method using the system. The evaporating system comprises: a generator (11) for concentrating the absorbing solution and generating vapor; an absorber (14) for generating heat, a hea...
|
|
WO/2009/094897A1 |
An absorptive heat pump system comprises: a generator (11) equipped with a heat exchanger (110), an evaporator (13) equipped with a driving heat source, an absorber (14) equipped with a heat exchanger (140), and an absorbent crystallizer...
|
|
WO/2009/094895A1 |
A distillation system comprises a generator (11), a condenser (12), an evaporator (13), an absorber (14), a crystallizer (141) for absorbent and a distillation column (410). The heat exchanger (140) of the absorber (14) connects with the...
|
|
WO/2009/092287A1 |
An absorption refrigeration circulation system and an absorption refrigeration method are disclosed. The system comprises: a generator (11), in which a heat exchanger (110) is provided; a condenser (12); an evaporator (13); an absorber (...
|
|
WO/2009/092281A1 |
An absorption heat pump system and a method for increasing the energy grade using the excess heat at a low temperature are provided. The absorption heat pump system comprises a heat pump generator (11), a heat pump condenser (12), a heat...
|
|
WO/2009/092280A1 |
An absorption solution circulating system and a method thereof are disclosed. The absorption solution is composed of an absorbent and a working medium. The absorption solution circulating system comprises a generator (10), an absorber (2...
|
|
WO/2009/089694A1 |
A falling-film evaporation-cooling absorption refrigeration unit comprises a generator (1), an evaporator (3), an absorber (4), a condenser (5), a throttling device and several cooling-water falling-film sprinkling devices (81). The oute...
|
|
WO/2009/063494A3 |
An LiBr vapor absorption machine having a high temperature generator (29) with a direct solid fuel furnace (6). The machine is suitable for refrigeration purpose.
|
|
WO/2009/063494A2 |
An LiBr vapor absorption machine having a high temperature generator (29) with a direct solid fuel furnace (6). The machine is suitable for refrigeration purpose.
|
|
WO/2009/053908A8 |
A refrigeration system operating with a mixture of water and ammonia, comprising a distillation unit (SD), a heat exchange unit (SE), an ejector device (PJ) and an absorber (A1).
|
|
WO/2009/053908A1 |
A refrigeration system operating with a mixture of water and ammonia, comprising a distillation unit (SD), a heat exchange unit (SE), an ejector device (PJ) and an absorber (A1).
|
|
WO/2009/051582A1 |
An absorption chiller is disclosed that uses membrane distillation to concentrate a weak absorbent solution. The membrane distillation process employs low temperature heat to vaporization water from a weak absorbent solution on one side ...
|
|
WO/2009/051583A1 |
A non-vacuum absorption refrigeration system is disclosed that operates at ambient pressure using membrane distillation to perform evaporator, absorber and boiler and condenser functions, The absence of a vacuum enables the use of low-pr...
|
|
WO/2009/044033A2 |
The system comprises a number of heating plates (100), with internal circulation of a heating fluid, interposed with descending solution plates provided with means for diffusion of said solution (S) to improve the heat exchange between t...
|
|
WO/2009/030987A2 |
The invention relates to a cooling arrangement (10) for cooling inlet air for a gas turbine, including refrigeration means (12) and a heat exchanger (22) located in an air inlet path of the gas turbine.
|
|
WO/2009/030987A3 |
The invention relates to a cooling arrangement (10) for cooling inlet air for a gas turbine, including refrigeration means (12) and a heat exchanger (22) located in an air inlet path of the gas turbine.
|
|
WO/2009/004008A1 |
An absorption refrigerating machine containing a vaporizer for vaporizing a refrigerant at low pressure, an absorber for absorbing the refrigerant vapour generated in the vaporizer by means of a low-refrigerant solvent at low pressure, a...
|
|
WO/2008/143542A1 |
The inventive method for converting thermal energy into electricity, high-potential heat and cold consists in evaporating a coolant from a strong solution at a high temperature and pressure in a boiler (10) in such a way that a superheat...
|
|
WO/2008/142412A1 |
A temperature-controllable equipment cabinet comprising a diffusion-absorption refrigeration cycle system (5), an evaporator pipe (4) of the refrigeration system extending through a wall (9) of the cabinet and passing through a sealed en...
|
|
WO/2008/138832A1 |
The invention relates to absorption-type heat pumps, absorption-type refrigeration machines and heat transformers based on absorption (called devices in short), characterized in that they are operated A) with sulfur dioxide as the coolan...
|
|
WO/2008/127236A1 |
A method and system for improving operation of an absorption chiller (10) having an evaporator (12), an absorber (14), a generator (16), and a condenser (20) varies the circulation of a refrigerant and/or an absorbent solution in order t...
|
|
WO/2008/127229A1 |
A method and system for controlling a temperature of a hot water source capable of being used for heating in an absorption chiller includes a first valve for controlling an amount of liquid refrigerant exiting a low stage generator in th...
|
|
WO/2008/098436A1 |
A finestiller (4,5) and an ammonia absorption type refrigerating apparatus utilizing waste heat of exhaust, which equipped with the finestiller (4,5) can be adapted to a carrier-wobbling environment and obtain sufficient rectification, a...
|
|
WO/2008/098435A1 |
An ammonia absorption type refrigerating apparatus utilizing waste heat of exhaust, which consists of an ammonia solution circulation loop and an ammonia circulation loop, includes a waste heat generator (1), a finestiller (5), a regener...
|
|
WO/2008/099726A1 |
Intended is to develop a novel absorption-type freezing unit, which can realize a size reduction and which can be mounted on a mover such as an automobile. The absorption-type freezing unit is characterized in that a semi-permeable membr...
|
|
WO/2008/094057A3 |
Procedure of producing combined heating, cooling and electrical power with high global efficiency, using coabsorbent truncated heat pumping cycles of much higher thermal efficiency than those known so far in coupling with a known thermod...
|
|
WO/2008/082388A1 |
A combined heat and power (CHP) system (10) includes a mechanical power source (12) having a mechanical shaft output configured to produce mechanical shaft energy. A power split device (14) is coupled to the mechanical shaft output and i...
|
|
WO/2008/069819A1 |
A method of providing heat to an absorption chiller includes communicating a fluid from the absorption chiller to an engine, heating the fluid at the location of the engine, and returning the heated fluid to the absorption chiller. An ex...
|
|
WO/2008/063039A1 |
The proposed method of moving thermal energy from a lower temperature heat source to a higher temperature heat sink ensures the increase of the heat pump performance as it allows to abandon the use of additional thermal energy used for s...
|
|
WO/2008/062438A3 |
A method and apparatus (100) for generating ice slurry is disclosed. The method involves creating vacuum in an ice slurry generator using a lithium bromide vacuum absorption machine and the apparatus (100) involves connecting the absorbe...
|
|
WO/2008/046120A2 |
Disclosed is an absorption refrigerator, particularly for operation in combination with a thermal solar power plant, comprising a generator (6) to which a heating medium is applied to expel the coolant, especially ammonia, from a solutio...
|
|
WO/2008/046120A3 |
Disclosed is an absorption refrigerator, particularly for operation in combination with a thermal solar power plant, comprising a generator (6) to which a heating medium is applied to expel the coolant, especially ammonia, from a solutio...
|
|
WO/2008/034152A2 |
The invention relates to a refrigerator (1) with a refrigerant circuit comprising at least one adsorber or at least one absorber (3) with at least one generator (2), at least one condenser (5) and at least one evaporator (4), the generat...
|
|
WO/2008/034152A3 |
The invention relates to a refrigerator (1) with a refrigerant circuit comprising at least one adsorber or at least one absorber (3) with at least one generator (2), at least one condenser (5) and at least one evaporator (4), the generat...
|
|
WO/2007/144024A1 |
The invention concerns a thermal exchange device including a thermoelectric device and an absorption refrigeration device. The absorption device includes an evaporator (100) absorbing the thermal energy from a warm source (500), a genera...
|
|
WO/2007/133201A3 |
An absorption chiller assembly (20) includes a low-stage generator (42) that utilizes heat from vapor resulting from operation of a high-stage generator (26) and heat from another hot liquid such as coolant fluid associated with a prime ...
|
|
WO/2007/125220A1 |
This device (11) comprises a generator (33) for separating a mixed fluid into a refrigerant fluid and an absorbent fluid. It comprises a refrigerant fluid condenser (35), linked to a generator (33) and an evaporator (51) of refrigerant f...
|
|
WO/2007/110854A3 |
Air conditioning system with an absorption compressor designed for cooling car cabin. The system is utilizing heat energy from a vehicle exhaust gas. The absorption compressor is an oil-Freon apsorption device and it works in parallel wi...
|
|
WO/2007/109250A3 |
A flash tank for a heat pump operable in a heating mode and a cooling mode includes a shell having a middle portion disposed between a top portion and a bottom portion, with the top portion, bottom portion, and middle portion cooperating...
|
|
WO/2007/109250A2 |
A flash tank for a heat pump operable in a heating mode and a cooling mode includes a shell having a middle portion disposed between a top portion and a bottom portion, with the top portion, bottom portion, and middle portion cooperating...
|
|
WO/2007/082103A3 |
An energy conversion system including a high efficiency absorption heat pump cycle is disclosed using a high pressure stage, a supercritical cooling stage, and a mechanical energy extraction stage to provide a non-toxic combined heat, co...
|
|
WO/2007/053370A2 |
A system (10) is disclosed for generating energy from a geothermal heat source (14). The system includes a fluid injection system (12) configured for injecting fluid into a subterranean formation and a fluid extraction system configured ...
|
|
WO/2007/053370A3 |
A system (10) is disclosed for generating energy from a geothermal heat source (14). The system includes a fluid injection system (12) configured for injecting fluid into a subterranean formation and a fluid extraction system configured ...
|
