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WO/2014/129909A1 |
A device and a method for the operational and safety control of a heat engine (1), which has a working-fluid path including a high-pressure path (44) and a low-pressure path (60), wherein the heat engine (1) uses a condensable working fl...
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WO/2014/128075A1 |
The invention proposes a system (10) for recuperating energy for a motor vehicle equipped with an internal combustion engine (16). The system comprises a recirculation circuit (17) for the partial recirculation of the engine exhaust gase...
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WO/2014/128266A1 |
The present invention concerns a system for converting thermal energy from a combustion engine (7), comprising a closed circuit (1) for circulating a working fluid, comprising a first heat exchanger (3), an expansion machine (4), a secon...
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WO/2014/128089A1 |
A combined heat and power system comprising a source (5) of solid fuel (P). A burner (8) within the combustion chamber (9) combusts the fuel. The combustion chamber has first and second outlets for the hot exhaust gas. A first heat excha...
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WO/2014/125721A1 |
Provided is an optimum control technique for energy capable of optimizing overall energy efficiency by efficiently controlling a plurality of dispersed heat sources. An optimum controller for energy includes an operating plan preparation...
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WO/2014/117914A1 |
The invention relates to a method and a device for operating a waste heat utilisation device (1) for an internal combustion engine (11) of a motor vehicle. Said waste heat utilisation device (1) contains a waste heat utilisation circuit ...
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WO/2014/121118A2 |
A system and method for capturing waste heat and converting the captured waste heat into mechanical or electrical energy.
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WO/2014/114999A1 |
The present invention concerns an engine comprising at least a cylinder (1) that forms a combustion chamber (50). In accordance with the invention, at least a photovoltaic surface (60) is foreseen, arranged in such a way as to result hit...
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WO/2014/117069A1 |
Generally a power unit including an internal combustion engine and a Stirling engine engaged through a common power transmission system to offset applied load. Specifically, a Stirling engine which uses the heat discharged by an internal...
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WO/2014/112210A1 |
A power generation system provided with: a gas turbine (11) having a compressor (21) and a combustor (22); a SOFC (13); a first compressed air supply line (26) that supplies compressed air (A1) compressed by the compressor (21) to the co...
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WO/2014/108732A1 |
The invention relates to a power-generation system characterized in that it includes a generator (3) that generates power. Said generator (3) includes: at least one rotor consisting of a plurality of permanent magnets (309); an electroly...
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WO/2014/109668A2 |
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WO/2014/109667A1 |
The present invention is meant for converting thermal energy into mechanical energy and vice versa. A thermal machine operates according to the Rayleigh cycle and comprises a chamber (1) having a smaller volume and a chamber (2) having a...
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WO/2014/110003A1 |
A combined heat and power system (10) includes a water loop (22) of a combined heat and power appliance (21). A free-piston Stirling engine (12) includes a heat exchanger that outputs to a resistor load (18), and the resistor load (18) i...
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WO/2014/103820A1 |
This engine-waste-heat recovery device is equipped with: a radiator for cooling an engine-cooling fluid; a Rankine cycle system which includes a heat exchanger for recovering waste heat from the engine in a coolant, an expander for gener...
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WO/2014/103824A1 |
This exhaust-heat-recovery device is equipped with an expander capable of rotating and driving as a result of heat recovered by an exhaust-heat recovery apparatus for recovering exhaust heat in an exhaust recirculation channel for recirc...
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WO/2014/103060A1 |
[Problem] The basic container configuration being a 40f container that houses a power generating functional unit, the purpose of the present invention is to provide a shorter waste heat utilizing container which houses a waste heat utili...
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WO/2014/103825A1 |
This Rankine cycle system is equipped with a cooling-fluid-temperature detector for detecting the temperature of cooling fluid, and a startup-permission determination unit for determining whether or not to permit startup of the Rankine c...
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WO/2014/103059A1 |
[Problem] The purpose of the present invention is to provide a container unit-type, cogeneration-utilizing engine generator device in which, while a longer generator container housing the generating function portion is the basic containe...
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WO/2014/103058A1 |
[Problem] To achieve an engine generator device in which effective utilization of containers is achieved by housing a generator functional unit, which itself houses an engine and a generator driven by said engine, in a longer generator c...
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WO/2014/103977A1 |
A waste heat utilization device for an internal combustion engine, equipped with: an air supply circuit having a supercharger that supplies pressurized air to the internal combustion engine; a Rankine cycle circuit having an expander and...
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WO/2014/101288A1 |
A piston temperature difference engine comprises a gas heat absorption expansion vessel (1), a cylinder (3), a piston (4), a gas heat dissipation contraction vessel (9), gas-flow reversing valves (11, 17), a gas-return balance valve (5),...
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WO/2014/103809A1 |
A heat exchange system is mounted on a hybrid vehicle which uses the power of both an engine and an electric motor. The heat exchange system is provided with a Rankine cycle including a heat exchanger which recovers the waste heat of the...
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WO/2014/097923A1 |
An exhaust heat recovery device (13) for an engine (1) equipped with a Rankine cycle (14), said exhaust heat recovery device being equipped with: a steam accumulator (20), which stores surplus operating medium, which is a surplus of an o...
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WO/2014/096895A1 |
The engine arrangement (1) comprises: an internal combustion engine (2); a waste heat recovery system (10) comprising a main line (21) in which a working fluid is successively pumped, heated in a heat exchanger (11) by means of a heat so...
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WO/2014/094500A1 |
Disclosed is a heat accumulating type Stirling engine, comprising a cooler (1), a heat accumulating type heater (2), a heat regenerator (9), a gas distribution piston (17), a motion controller (3), a power cylinder (4), a flywheel (19) a...
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WO/2014/091786A1 |
The purpose of the present invention is to provide an exhaust heat recovery system and an exhaust heat recovery method in which conditions whereby a steam turbine and a gas turbine can both be driven are found and power is generated even...
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WO/2014/091094A1 |
The invention concerns an energy generation system comprising a first generator producing electrical energy, an electrolyser producing oxygen and hydrogen from electricity and water, a heat exchanger producing a high-pressure gas from a ...
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WO/2014/089716A2 |
The invention relates to a device for extracting electric energy from thermal energy, comprising a heat-insulating heat storage unit (16) having a storage medium (17), a heat engine with a working medium, and a generator (15) for produci...
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WO/2014/083074A1 |
A combined internal combustion engine and waste heat recovery system is provided. The combined internal combustion engine and waste heat recovery system comprises the internal combustion engine, the waste heat recovery system, and a rati...
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WO/2014/080130A1 |
The present invention relates to a unit (3) for converting thermal energy into hydraulic energy which is notable in that said unit comprises at least two pistons (15, 16) secured to a single piston rod (17) and defining four chambers (18...
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WO/2014/081381A1 |
The invention relates to an engine (1) comprising a first cylinder chamber (9) and a second cylinder chamber (10). The first cylinder chamber (9) receives gas through a first inlet valve (19) which gas will be compressed by a piston (6) ...
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WO/2014/079524A1 |
The invention relates to a method for operating a heat engine, and to a heat engine, having: a working chamber with a working piston and a drive section with a displacer device and a heat exchanging device, wherein the heat engine is con...
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WO/2014/070633A1 |
A mobile refrigeration unit includes a refrigeration system having a plurality of electric motor driven components and an on-board power supply system for generating electric current and supplying the electric current to the plurality of...
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WO/2014/063811A1 |
The invention relates to a method for operating a charged, uniflow scavenged two-stroke internal combustion engine comprising at least one piston (12) that moves back and forth in a cylinder (10) between a top dead centre (OT) and a bott...
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WO/2014/065397A1 |
Provided is an internal combustion engine system that, when performing the actions of stopping and starting power generation in a supercharger for generating power, can avoid sudden fluctuations in the amount of steam produced by an exha...
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WO/2014/063639A1 |
A Stirling engine employing a regenerative heater, an annular gapped cooler, and a linearly driven displacer piston, comprising the annular cooler (1), the regenerative heater (2), the displacer piston (17), a linear drive system (3), an...
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WO/2014/058008A1 |
The hull resistance reduction system is provided with a main engine (1), an exhaust turbine compression mechanism (20) actuated by some of the exhaust gas led from the main engine (1), and a discharge nozzle (24) for leading compressed a...
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WO/2014/059231A1 |
Aspects of the invention disclosed herein generally provide heat engine systems and methods for recovering energy, such as by generating electricity from thermal energy. In one configuration, a heat engine system contains a working fluid...
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WO/2014/059230A1 |
Aspects of the invention disclosed herein generally provide heat engine systems and methods for generating electricity. In one configuration, a heat engine system contains a working fluid circuit having high and low pressure sides and co...
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WO/2014/059235A1 |
Aspects of the invention disclosed herein generally provide heat engine systems and methods for recovering energy, such as by generating electricity from thermal energy. Generally, the heat engine system has a working fluid circuit conta...
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WO/2014/053061A1 |
There is an improved method for supplying gaseous fuel from a liquid state to an internal combustion engine comprising employing a second internal combustion engine as a source of energy; pumping the gaseous fuel in the liquid state by t...
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WO/2014/047671A1 |
Technologies are generally described for recovery of energy from engines. The described technology may be applied to systems, methods, and/or apparatuses. An example exhaust energy recovery apparatus (50) may include at least one thermal...
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WO/2014/043029A1 |
Provided herein are power generating systems utilizing exothermic and endothermic cycling of simulated moving beds, preferentially utilizing supercritical carbon dioxide as a working fluid, to increase enthalpy and thermodynamic cycle ef...
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WO/2014/036258A1 |
Disclosed is a semi-closed cycle turbine engine power system, operating with air, enriched air, or oxygen as the oxidizer, is made non-emissive via the semi-closed cycle, in a manner which produces saleable CO2 product at pressure. In an...
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WO/2014/036256A1 |
Disclosed is a cycle piston engine power system in which a compression ignition or spark ignition reciprocating piston engine is made non-emissive via a semi-closed cycle, in a manner which produces saleable CO2 product at pressure. The ...
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WO/2014/032863A1 |
The invention relates to an internal combustion engine (1), comprising a fresh gas line (2) and an exhaust gas line (3), wherein a heat exchanger (11) is installed in the exhaust gas line (3), which heat exchanger is a component of a flu...
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WO/2014/029912A1 |
The present invention relates to a pressure-increasing unit (1 ) comprising first receiving means (2) for receiving a pipeline (4) conveying pressurized gas, at least one first pipeline (3) for further transferring the pressurized gas to...
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WO/2014/031526A1 |
Aspects of the invention provided herein include heat engine systems, methods for generating electricity, and methods for starting a turbo pump. In some configurations, the heat engine system contains a start pump and a turbo pump dispos...
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WO/2014/024437A1 |
An exhaust heat recovery device comprises: a heating unit (1) that performs heat exchange between a heating fluid and an evaporable and condensable working fluid enclosed in the interior and evaporates the working fluid; and a condensing...
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