Thermoelectric catalytic power generator with preheat
First Claim
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1. A preheat system for reducing emissions in a vehicle having an internal combustion engine, a fluid cooling system containing a coolant, an electrical power source, an electrical load, and an exhaust passage having exhaust gases flowing in a flow direction therein, comprising:
- a catalytic converter disposed in the exhaust passage, said converter enclosing a catalytic monolith in fluid communication with the exhaust gases, said converter having a light-off temperature;
a coolant jacket disposed in an outer portion of the catalytic converter, said jacket having a coolant inlet and a coolant outlet in fluid communication with the fluid cooling system to maintain the outer portion of the catalytic converter at a predetermined temperature;
a plurality of thermoelectric generators disposed in heat exchange relationship with the catalytic monolith;
a temperature sensor disposed in the catalytic converter capable of determining a perceived temperature of the catalytic converter and further capable of sending a signal corresponding to the perceived temperature;
a preheat controller capable of receiving the signal and comparing the perceived temperature with the light-off temperature;
the preheat controller in electric communication with the electrical power source and the thermoelectric generators and operable to control the thermoelectric generators such that heat is transferred from the thermoelectric generators to the catalytic monolith when the perceived temperature is less than the light-off temperature; and
the preheat controller further capable of extracting electrical energy from the thermoelectric generators when the perceived temperature is greater than the light-off temperature and heat is transferred from the catalytic monolith to the thermoelectric generators.
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Abstract
An automobile catalytic converter that utilizes the energy of the exothermic reactions that take place in the catalysis substrate to produce electrical energy with a thermoelectric generator. On vehicle cold start, the thermoelectric generator is used as a heat pump to heat the catalyst substrate to reduce the time to catalyst light-off. In this way, the catalytic converter comes up to operating temperature more rapidly, reducing the amount of pollutant emissions at vehicle start-up.
70 Citations
12 Claims
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1. A preheat system for reducing emissions in a vehicle having an internal combustion engine, a fluid cooling system containing a coolant, an electrical power source, an electrical load, and an exhaust passage having exhaust gases flowing in a flow direction therein, comprising:
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a catalytic converter disposed in the exhaust passage, said converter enclosing a catalytic monolith in fluid communication with the exhaust gases, said converter having a light-off temperature; a coolant jacket disposed in an outer portion of the catalytic converter, said jacket having a coolant inlet and a coolant outlet in fluid communication with the fluid cooling system to maintain the outer portion of the catalytic converter at a predetermined temperature; a plurality of thermoelectric generators disposed in heat exchange relationship with the catalytic monolith; a temperature sensor disposed in the catalytic converter capable of determining a perceived temperature of the catalytic converter and further capable of sending a signal corresponding to the perceived temperature; a preheat controller capable of receiving the signal and comparing the perceived temperature with the light-off temperature; the preheat controller in electric communication with the electrical power source and the thermoelectric generators and operable to control the thermoelectric generators such that heat is transferred from the thermoelectric generators to the catalytic monolith when the perceived temperature is less than the light-off temperature; and the preheat controller further capable of extracting electrical energy from the thermoelectric generators when the perceived temperature is greater than the light-off temperature and heat is transferred from the catalytic monolith to the thermoelectric generators. - View Dependent Claims (2, 3)
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4. A preheat system for reducing emissions in a vehicle having an internal combustion engine, a fluid cooling system containing a coolant, an electrical power source, an electrical load, and an exhaust passage having exhaust gases flowing in a flow direction therein, comprising:
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a catalytic converter disposed in the exhaust passage, said converter enclosing a catalytic monolith in fluid communication with the exhaust gases, said converter having a light-off temperature; a coolant jacket disposed in an outer portion of the catalytic converter, said jacket having a coolant inlet and a coolant outlet in fluid communication with the fluid cooling system to maintain the outer portion of the catalytic converter at a predetermined temperature; a plurality of thermoelectric generators disposed in heat exchange relationship with the catalytic monolith; a temperature sensor disposed in the catalytic converter capable of determining a perceived temperature of the catalytic converter and further capable of sending a signal corresponding to the perceived temperature; a valve disposed in the exhaust passage having a closed position and an open position, capable of restricting the volume of exhaust gases through the monolith in the closed position; and a preheat controller capable of receiving the signal and comparing the perceived temperature with the light-off temperature; the preheat controller in electric communication with the electrical power source and the thermoelectric generators and operable to control the thermoelectric generators such that heat is transferred from the thermoelectric generators to the catalytic monolith when the perceived temperature is less than the light-off temperature; the preheat controller in electric communication with the valve and operable to position the valve in the closed position when the perceived temperature of the catalytic converter is below the light-off temperature and operable to position the valve in the open position when the perceived temperature of the catalytic converter is above the light-off temperature; and the preheat controller further capable of extracting electrical energy from the thermoelectric generators when the perceived temperature is greater than the light-off temperature and heat is transferred from the catalytic monolith to the thermoelectric generators. - View Dependent Claims (5, 6, 7, 8, 9, 10)
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11. A catalytic system for producing electricity in a vehicle having an internal combustion engine, a cooling system containing a coolant, an electrical load, and an exhaust passage having exhaust gases flowing in a flow direction therein, comprising:
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a catalytic converter disposed in the exhaust passage, with a catalytic monolith in fluid communication with the exhaust gases, said converter having a light-off temperature, a coolant jacket disposed in an outer portion of the catalytic converter, said jacket having a coolant inlet and a coolant outlet in fluid communication with the cooling system to maintain the outer portion of the catalytic converter at a predetermined temperature; a plurality of thermoelectric generators disposed in physical contact with the catalytic converter and in heat exchange relationship with the catalytic monolith and capable of producing electrical energy when heat is transferred from the catalytic monolith to the thermoelectric generators; a controller in electrical communication with the thermoelectric generators and the electrical load and capable of extracting electrical energy from the thermoelectric generators and delivering the electrical energy to the electrical load;
whereinthe catalytic monolith is disposed within a casing; a layer comprised of insulation is disposed around the casing; a compression shell is disposed around the insulation layer; a plurality of fins are arranged about the casing and in heat exchange relationship with the catalytic monolith and the compression shell; a spring support shell is mounted concentrically between the compression shell and the coolant jacket such that a gap is formed therebetween; and the thermoelectric generators are fixedly mounted to a plurality of springs disposed within the gap such that the springs bias the thermoelectric generators against the compression shell in heat exchange relationship with the fins. - View Dependent Claims (12)
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Specification
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Current AssigneeRonald J. Parise
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Original AssigneeRonald J. Parise
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InventorsParise, Ronald J.
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Primary Examiner(s)TRAN, HIEN THI
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Application NumberUS08/933,663Time in Patent Office760 DaysField of Search422/171, 422/177, 422/172, 422/176, 422/173, 422/174, 422/198, 422/110, 422/199, 422/202, 422/109, 60/298, 60/320, 60/300, 136/201, 136/205, 136/242, 136/211, 136/212US Class Current422/174CPC Class CodesB01F 2101/2305 Mixers of the two-component...B01F 25/4314 with helical bafflesB01F 33/5011 portable during use, e.g. h...B29C 2948/92104 Flow or feed rateB29C 2948/926 Flow or feed rateB29C 2948/92704 TemperatureB29C 48/03 characterised by the shape ...B29C 48/33 with parts rotatable relati...B29C 48/92 Measuring, controlling or r...F01N 3/20 specially adapted for catal...F01N 3/2006 Periodically heating or coo...F01N 3/2013 using electric or magnetic ...F01N 3/2046 Periodically cooling cataly...H01M 10/443 in response to temperatureH01M 8/04007 related to heat exchangeH02J 7/34 Parallel operation in netwo...H10N 10/00 Thermoelectric devices comp...H10N 10/13 characterised by the heat-e...Y02A 50/20 Air quality improvement or ...Y02E 60/10 Energy storage using batteriesView All
