EP3904766A1 - Process for the plausibility check of a gaseous flow rate in a burner and gas boiler for carrying out the process - Google Patents
Process for the plausibility check of a gaseous flow rate in a burner and gas boiler for carrying out the process Download PDFInfo
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- EP3904766A1 EP3904766A1 EP21167561.6A EP21167561A EP3904766A1 EP 3904766 A1 EP3904766 A1 EP 3904766A1 EP 21167561 A EP21167561 A EP 21167561A EP 3904766 A1 EP3904766 A1 EP 3904766A1
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- 238000000034 method Methods 0.000 title claims abstract description 26
- 239000007789 gas Substances 0.000 claims abstract description 52
- 238000002485 combustion reaction Methods 0.000 claims abstract description 38
- 239000002737 fuel gas Substances 0.000 claims abstract description 27
- 239000000203 mixture Substances 0.000 claims abstract description 27
- 238000011156 evaluation Methods 0.000 claims abstract description 6
- 239000000567 combustion gas Substances 0.000 claims abstract description 4
- 238000005259 measurement Methods 0.000 description 3
- 241001156002 Anthonomus pomorum Species 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000012545 processing Methods 0.000 description 2
- 230000001105 regulatory effect Effects 0.000 description 2
- 230000004044 response Effects 0.000 description 2
- 238000012935 Averaging Methods 0.000 description 1
- 230000000052 comparative effect Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000018109 developmental process Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000010304 firing Methods 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 230000010355 oscillation Effects 0.000 description 1
- 210000002023 somite Anatomy 0.000 description 1
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23N—REGULATING OR CONTROLLING COMBUSTION
- F23N5/00—Systems for controlling combustion
- F23N5/02—Systems for controlling combustion using devices responsive to thermal changes or to thermal expansion of a medium
- F23N5/12—Systems for controlling combustion using devices responsive to thermal changes or to thermal expansion of a medium using ionisation-sensitive elements, i.e. flame rods
- F23N5/123—Systems for controlling combustion using devices responsive to thermal changes or to thermal expansion of a medium using ionisation-sensitive elements, i.e. flame rods using electronic means
Definitions
- the present invention relates to a method for checking the plausibility of a gas mixture volume flow in a burner.
- a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process in the burner, the combustion process being monitored by evaluating a measured value V of at least one sensor.
- the measured value V is related to the combustion process in such a way that the quality of the combustion of the combustion gas can be determined.
- the invention also relates to a gas boiler with a burner, in which a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process.
- burners are defined in their performance parameters via previously known setpoint values for gas and fuel gas supply.
- the present invention is therefore based on the object of proposing a method for plausibility checking of a gas mixture volume flow in a burner or a gas boiler with a burner, in which the effort for the plausibility check of the gas mixture volume flow is reduced and the reliability of the plausibility check is increased.
- the point in time t start (302) and the point in time t 2 (301) are provided at a common point in time. This ensures that all relevant information is recorded in the measured value time series V (t).
- the pulse-like modulation is designed in the form of a predefined, in particular stored, theoretical signal.
- the exact course of the pulse-like modulation is therefore known and can be used for the calculation without a time delay, so that this can be carried out more quickly.
- the pulse-like modulation is a measured signal, in particular an ionization signal from the burner. As a result, a signal that can be reliably measured can be guaranteed.
- the measured value time series V (t) is recorded completely in a memory.
- the recording of the time series as a whole enables the flexible use of the data for further calculations.
- the resolution of the measured value time series V (t) is increased by short time intervals between the point in time t i and a point in time t i + 1, which allows a more precise evaluation of the data.
- a gas boiler with a burner in which a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process to carry out the method for plausibility checking of a gas mixture volume flow according to the above statements.
- the operation of a gas boiler is monitored by means of a plausibility check of the volume flow, which optimizes and reduces the requirements for the evaluation electronics.
- a pulse-like modulation is to be understood as a time-limited signal change of any shape, including a triangular pulse, a square pulse and a sinusoidal oscillation.
- the index “i” stands for a continuous number of measuring points that take place one after the other.
- a gas boiler is shown, which can be operated by means of the method according to the invention.
- a fuel gas 3 is admitted into a gas mixture blower 6 via a fuel gas control valve 2 and mixed here with a gas 4.
- the fuel gas control valve 2 is secured with a fuel gas safety valve 1 in order to prevent the inflow of fuel gas 3 in the event of an undesired operating state and to ensure operational safety.
- the fuel gas 3 is blown with the gas 4 into the combustion chamber 11 by means of the gas mixture blower 6. This is where the burner 7 is located, which burns the gas mixture 5 of gas 4 and fuel gas 3 in a combustion process.
- the combustion chamber 11 is closed on the exhaust gas side by means of a non-return valve 9, so that the combustion process is protected from external influences.
- the firing process can now be monitored by means of a measured value from a sensor, for example an ionization electrode 8 shown in this embodiment variant.
- the ionization electrode 8 supplies measured values with the aid of which the volume flow of the gas mixture 5, consisting of fuel gas 3 and gas 4, is checked for plausibility.
- the control device 10 can be used to influence, for example, the gas mixture blower 6, the gas safety valve 1 and / or the gas control valve 2.
- the required burner output can be regulated in accordance with a given heat requirement, in that a required amount of gas 4 is changed by the control device 10 with the speed-regulated gas mixture blower 6.
- FIG. 2 a diagram is shown on the basis of which the method according to the invention is described.
- a pulse-like modulation in the form of a volume flow change G is impressed on the volume flow of the fuel gas 3 at a first point in time t start 302. This takes place according to a time series G (t) 305, which is in particular a predefined and preferably a stored theoretical signal.
- the theoretical signal can now in particular be a fuel gas volume flow signal or a control signal for a servomotor, a valve or the like.
- a measured value V is measured and a measured value time series V (t) 304 is recorded.
- a product P is formed from this value and each value of the known time series G (t) 305 by means of suitable electronics.
- a sum S i is formed from the set of these products and is stored in a buffer.
- the respective value of the measured value time series V (t) 304 is preferably deleted after the respective calculation and / or overwritten with the subsequent value of the measured value time series V (t) 304 in order to save memory space in the electronics. These steps now take place for each individual value of the measured value time series V (t) 304 up to a point in time t stop 306.
- the time intervals between a point in time t i and a point in time t i + 1 are preferably between 0.1 ms and 20 ms, in particular between 0.5ms and 5ms long.
- the largest sum S max is then selected from all the sums S i to S i + n formed and the time t i + x corresponding to this is determined.
- a time difference between t start 302 and t i + x can be determined as running time t run 303. This corresponds to the time that the pulse-like modulation takes place through the volume flow of the gas mixture 5 (not shown here) (in Figure 1 shown) to the combustion chamber 11 (not shown here) (in Figure 1 shown) is required.
- This can with a set value t to a theoretical volumetric flow can be compared from a memory. This comparison allows conclusions to be drawn about the combustion process and this can be monitored in order to check the plausibility of a gas mixture volume flow.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Fluidized-Bed Combustion And Resonant Combustion (AREA)
- Feeding And Controlling Fuel (AREA)
Abstract
Verfahren zur Plausibilisierung eines Gasgemisch-Volumenstroms in einem Brenner in welchem ein Gasgemisch (5), welches ein Gas (4) und ein Brenngas (3) umfasst, in einer Brennkammer (11) durch einen Brennprozess verbrannt wird, wobei eine Überwachung des Brennprozesses durch Auswertung eines Messwerts V, wenigstens eines Sensors erfolgt, wobei der Messwert V mit dem Brennprozess derart in Beziehung steht, dass die Qualität der Verbrennung des Brenngases erfassbar ist.Method for checking the plausibility of a gas mixture volume flow in a burner in which a gas mixture (5), which comprises a gas (4) and a fuel gas (3), is burned in a combustion chamber (11) by a combustion process, the combustion process being monitored by Evaluation of a measured value V of at least one sensor takes place, the measured value V being related to the combustion process in such a way that the quality of the combustion of the combustion gas can be detected.
Description
Die vorliegende Erfindung betrifft ein Verfahren zur Plausibilisierung eines Gasgemisch-Volumenstroms in einem Brenner. Dabei wird in dem Brenner ein Gasgemisch, welches ein Gas und ein Brenngas umfasst, in einer Brennkammer durch einen Brennprozess verbrannt, wobei eine Überwachung des Brennprozesses durch Auswertung eines Messwertes V, wenigstens eines Sensors erfolgt. Der Messwert V steht dabei mit dem Brennprozess derart in Beziehung, dass die Qualität der Verbrennung des Brenngases erfassbar ist.The present invention relates to a method for checking the plausibility of a gas mixture volume flow in a burner. In this case, a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process in the burner, the combustion process being monitored by evaluating a measured value V of at least one sensor. The measured value V is related to the combustion process in such a way that the quality of the combustion of the combustion gas can be determined.
Des Weiteren betrifft die Erfindung eine Gastherme mit einem Brenner, in welchem ein Gasgemisch, welches ein Gas und ein Brenngas umfasst, in einer Brennkammer durch einen Brennprozess verbrannt wird.The invention also relates to a gas boiler with a burner, in which a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process.
Üblicherweise sind derartige Brenner über vorbekannte Sollwerte für Gas- und Brenngaszufuhr in ihren Leistungsparametern definiert.Typically, such burners are defined in their performance parameters via previously known setpoint values for gas and fuel gas supply.
Es ist aus der
In Bezug auf die Verwendung von solchen Verfahren ist problematisch, dass schnell ändernde Umgebungsbedingungen, wie Druckschwankungen, oder abrupte Abweichungen im Volumenstrom durch sich vor der Brennkammer, oder im Abgassystem befindlichen Rückschlagklappen nicht als solche erkannt werden können, sondern zu verfälschten Vergleichswerten führen. Zur genaueren Volumenstrombestimmung sind somit mehrere hintereinander folgende Messreihen mit anschließender Mittelwertbildung erforderlich. Darüber hinaus werden für die Auswertung Signal-Antwort-Schleifen in Mikroprozessoren mit vergleichsweise hohem Speicherbedarf und Rechenaufwand zur Verarbeitung der Messdaten benötigt.With regard to the use of such methods, it is problematic that rapidly changing environmental conditions, such as pressure fluctuations or abrupt deviations in the volume flow due to non-return valves in front of the combustion chamber or in the exhaust system, cannot be recognized as such. but lead to falsified comparative values. For a more precise determination of the volume flow, several successive series of measurements with subsequent averaging are required. In addition, signal-response loops in microprocessors with a comparatively high memory requirement and computational effort for processing the measurement data are required for the evaluation.
Der vorliegenden Erfindung liegt daher die Aufgabe zugrunde, ein Verfahren zur Plausibilisierung eines Gasgemisch-Volumenstroms in einem Brenner bzw. eine Gastherme mit einem Brenner vorzuschlagen, bei welchem der Aufwand für die Plausibilisierung des Gasgemisch-Volumenstroms reduziert ist und die Zuverlässigkeit der Plausibilisierung erhöht ist.The present invention is therefore based on the object of proposing a method for plausibility checking of a gas mixture volume flow in a burner or a gas boiler with a burner, in which the effort for the plausibility check of the gas mixture volume flow is reduced and the reliability of the plausibility check is increased.
Erfindungsgemäß wird diese Aufgabe in Verbindung mit dem Oberbegriff des Patentanspruchs 1 bzw. 8 durch die kennzeichnenden Merkmale des Patentanspruchs 1 bzw. 8 gelöst. In den Unteransprüchen sind vorteilhafte und zweckmäßige Weiterbildungen angegeben.According to the invention, this object is achieved in conjunction with the preamble of
Das erfindungsgemäße Verfahren zur Plausibilisierung eines Gasgemisch-Volumenstroms in einem Brenner, in welchem ein Gasgemisch, welches ein Gas und ein Brenngas umfasst, in einer Brennkammer durch einen Brennprozess verbrannt wird, wobei eine Überwachung des Brennprozesses durch Auswertung eines Messwertes V, wenigstens eines Sensors erfolgt, wobei der Messwert V mit dem Brennprozess derart in Beziehung steht, dass die Qualität der Verbrennung des Brenngases erfassbar ist, sieht die folgenden Verfahrensschritte vor:
- a) zunächst wird eine impulsartige Modulation auf einen Volumenstrom des Brenngases, insbesondere einer Volumenstromänderung G auf einen Volumenstrom des Brenngases, zu einem ersten Zeitpunkt tstart gemäß einer Zeitreihe G(t) aufgeprägt, wobei hierdurch ein bekanntes Signal in das System des Brenners eingespeist wird, das später wiedererkannt werden kann und wobei die impulsartige Modulation beispielsweise ein Volumenstromsignal oder ein Steuersignal für einen Stellmotor, ein Ventil oder der Gleichen sein kann;
- b) ab einem zweiten Zeitpunkt t2 wird ein Messwert V gemessen und eine Messwert-Zeitreihe V(t) erfasst, wobei sich hierdurch die Möglichkeit ergibt, die Auswirkung des Signals, beispielsweise ein Anstieg der Energieabgabe des Verbrenners, oder eine Erhöhung eines Ionisationssignals einer Ionisationselektrode innerhalb der Brennkammer in Abhängigkeit der Zeit zu messen;
- c) sodann wird jeweils ein Produkt P aus dem ersten Wert der Zeitreihe V(t) zum Zeitpunkt ti und einem jeden Wert der Zeitreihe G(t) berechnet und nachfolgend eine Summe Si aller berechneten Produkte gebildet;
- d) die erste Summe Si wird in einem Zwischenspeicher gespeichert, wodurch eine spätere Nutzung dieser Daten ermöglicht wird;
- e) es wird jeweils ein Produkt P aus dem zweiten Wert aus der Zeitreihe V(t) zu einem Zeitpunkt ti+1 und einem jeden Wert der Zeitreihe G(t) berechnet und nachfolgend eine Summe Si+1 aller berechneter Produkte gebildet;
- f) die Summe Si+1 wird ebenfalls in einem Zwischenspeicher gespeichert und somit für eine darauf folgende Datenverarbeitung vorgehalten;
- g) es erfolgt ein Wiederholen der beiden Schritte e) und f) für die nachfolgenden Zeitpunkte ti+n bis zu einem vorgegebenen Zeitpunkt tstop;
- h) aus den gespeicherten Summen Si bis Si+n erfolgt eine Selektion der größten Summe, des Maximums Smax, der gespeicherten Summen Si bis Si+n und ein Ermitteln des Zeitpunktes ti+x zu der Summe Smax;
- i) aus der Zeitdifferenz zwischen tstart und ti+x wird die Laufzeit tlauf der impulsartigen Modulation durch den Volumenstrom des Gasgemisches zur Brennkammer bestimmt;
- j.) die Laufzeit tlauf wird mit einem Sollwert tsoll bei einem theoretischen Volumenstrom aus einem Speicher verglichen und darauf aufbauend ein Rückschluss auf den aktuell vorliegenden Volumenstrom des Brenners im aktuellen Zustand gezogen.
- a) first, a pulse-like modulation on a volume flow of the fuel gas, in particular a Volume flow change G is imposed on a volume flow of the fuel gas at a first point in time t start according to a time series G (t), whereby a known signal is fed into the system of the burner which can be recognized later and the pulse-like modulation, for example, a volume flow signal or can be a control signal for a servomotor, a valve or the like;
- b) from a second point in time t 2 , a measured value V is measured and a measured value time series V (t) is recorded, with the possibility of determining the effect of the signal, for example an increase in the energy output of the burner or an increase in an ionization signal To measure ionization electrode within the combustion chamber as a function of time;
- c) then in each case a product P is calculated from the first value of the time series V (t) at time t i and each value of the time series G (t), and a sum S i of all calculated products is then formed;
- d) the first sum S i is stored in a buffer memory, which enables this data to be used at a later date;
- e) a product P is calculated from the second value from the time series V (t) at a point in time t i + 1 and each value of the time series G (t) and then a sum S i + 1 of all calculated products is formed;
- f) the sum S i + 1 is also stored in an intermediate memory and is therefore held ready for subsequent data processing;
- g) the two steps e) and f) are repeated for the subsequent times t i + n up to a predetermined time t stop ;
- h) from the stored sums S i to S i + n there is a selection of the largest sum, the maximum S max , the stored sums S i to S i + n and a determination of the point in time t i + x for the sum S max ;
- i) from the time difference between t start and t i + x , the running time t run of the pulse-like modulation through the volume flow of the gas mixture to the combustion chamber is determined;
- j.) the duration t run is compared with a reference value T set at a theoretical volume flow from a memory and, based on it, drawn a conclusion on the actual present volume flow of the burner in the current state.
Durch die Anwendung dieses Verfahrens erfolgt eine Plausibilisierung des tatsächlichen Volumenstroms und es entfällt eine Speicherung des gesamten Antwortsignals V(t), da die einzelnen Messwerte unmittelbar verarbeitet, und im Nachgang für die Auswertung nicht mehr benötigt werden. Hierdurch sind die Anforderungen an eine Elektronik des Steuergeräts reduziert, da weniger Daten zur Speicherung anfallen und weniger Daten ausgewertet werden müssen.By using this method, the actual volume flow is checked for plausibility and the entire response signal V (t) is not stored, since the individual measured values are processed immediately and are no longer required for the evaluation afterwards. This reduces the requirements for electronics in the control unit, since less data is required to be stored and less data has to be evaluated.
In einer vorteilhaften Ausbildung ist vorgesehen den Zeitpunkt tstart (302) und den Zeitpunkt t2 (301) auf einen gemeinsamen Zeitpunkt zu legen. Hiermit wird sichergestellt, dass alle relevanten Informationen in der Messwert-Zeitreihe V(t) aufgenommen werden.In an advantageous embodiment, the point in time t start (302) and the point in time t 2 (301) are provided at a common point in time. This ensures that all relevant information is recorded in the measured value time series V (t).
Weiterhin ist vorgesehen, den Messwert der Messwert-Zeitreihe V(t) zum Zeitpunkt ti, also V(ti), aus einem Zwischenspeicher nach der Berechnung der Summe Si zu löschen und/oder zu überschreiben. Dadurch, dass die Messwerte nicht dauerhaft gespeichert bleiben, kann wertvoller Speicherplatz der Elektronik gespart werden.Provision is also made for the measured value of the measured value time series V (t) at time t i , that is to say V (t i ), to be deleted and / or overwritten from a buffer after the sum S i has been calculated. Because the measured values are not stored permanently, valuable electronic memory space can be saved.
Außerdem ist vorgesehen, die impulsartige Modulation in Form eines vordefinierten, insbesondere gespeicherten theoretischen Signals zu gestalten. Der genaue Verlauf der impulsartigen Modulation ist somit bekannt und kann ohne Zeitverzögerung zur Berechnung herangezogen werden, wodurch diese schneller durchgeführt werden kann.It is also provided that the pulse-like modulation is designed in the form of a predefined, in particular stored, theoretical signal. The exact course of the pulse-like modulation is therefore known and can be used for the calculation without a time delay, so that this can be carried out more quickly.
Es ist auch vorgesehen, dass die impulsartige Modulation ein gemessenes Signal, insbesondere ein Ionisationssignal des Brenners ist. Dadurch kann ein zuverlässig zu messendes Signal gewährleistet werden.It is also provided that the pulse-like modulation is a measured signal, in particular an ionization signal from the burner. As a result, a signal that can be reliably measured can be guaranteed.
Weiterhin ist vorgesehen, die Messwert Zeitreihe V(t) komplett in einem Speicher zu erfassen. Das Erfassen der Zeitreihe im Ganzen ermöglicht das flexible Nutzen der Daten für weitere Berechnungen.It is also provided that the measured value time series V (t) is recorded completely in a memory. The recording of the time series as a whole enables the flexible use of the data for further calculations.
In einer vorteilhaften Ausbildung ist vorgesehen, das Zeitintervall zwischen einem Zeitpunkt ti und einem Zeitpunkt ti+1 zwischen 0,1ms und 20ms, insbesondere zwischen 0,5ms und 5ms zu legen. Durch kurze Zeitintervalle zwischen dem Zeitpunkt Zeitpunkt ti und einem Zeitpunkt ti+1 wird die Auflösung der Messwert Zeitreihe V(t) vergrößert, was eine genauere Auswertung der Daten erlaubt.In an advantageous embodiment, provision is made for the time interval between a point in time t i and a point in time t i + 1 to be set between 0.1 ms and 20 ms, in particular between 0.5 ms and 5 ms. The resolution of the measured value time series V (t) is increased by short time intervals between the point in time t i and a point in time t i + 1, which allows a more precise evaluation of the data.
Schließlich ist vorgesehen an einer Gastherme mit einem Brenner in welchem ein Gasgemisch, welches ein Gas und ein Brenngas umfasst, in einer Brennkammer durch einen Brennprozess verbrannt wird, das Verfahren zur Plausibilisierung eines Gasgemisch-Volumenstroms nach den oben genannten Ausführungen auszuführen. Hiermit wird der Betrieb einer Gastherme mittels Plausibilisierung des Volumenstroms überwacht, wodurch die Anforderungen an die Auswerteelektronik optimiert und verringert werden.Finally, it is provided on a gas boiler with a burner in which a gas mixture comprising a gas and a fuel gas is burned in a combustion chamber by a combustion process to carry out the method for plausibility checking of a gas mixture volume flow according to the above statements. The operation of a gas boiler is monitored by means of a plausibility check of the volume flow, which optimizes and reduces the requirements for the evaluation electronics.
Im Sinne der Erfindung ist unter einer impulsartiger Modulation eine zeitlich begrenzte Signaländerung mit beliebiger Form zu verstehen, umfassend ein Dreiecksimpuls, ein Rechteckimpuls und eine Sinusschwingung.In the context of the invention, a pulse-like modulation is to be understood as a time-limited signal change of any shape, including a triangular pulse, a square pulse and a sinusoidal oscillation.
Außerdem steht im Sinne der Erfindung der Index "i" für eine fortlaufende Anzahl an Messpunkten, die nacheinander stattfinden.In addition, within the meaning of the invention, the index “i” stands for a continuous number of measuring points that take place one after the other.
Zusätzliche Erfindungsdetails sind anhand schematischer Ausführungsbeispiele den Zeichnungen zu entnehmen.Additional details of the invention can be found in the drawings using schematic exemplary embodiments.
Hierbei zeigt:
Figur 1- eine schematische Darstellung einer Gastherme, welche mittels des erfindungsgemäßen Verfahrens betreibbar ist und
Figur 2- ein schematisches Diagramm des erfindungsgemäßen Verfahrens.
- Figure 1
- a schematic representation of a gas boiler, which can be operated by means of the method according to the invention and
- Figure 2
- a schematic diagram of the method according to the invention.
In
In
- 11
- BrenngassicherheitsventilFuel gas safety valve
- 22
- BrenngasregelventilFuel gas control valve
- 33
- BrenngasFuel gas
- 44th
- Gasgas
- 55
- GasgemischGas mixture
- 66th
- Gasgemisch-GebläseGas mixture blower
- 77th
- Brennerburner
- 88th
- IonisationselektrodeIonization electrode
- 99
- RückschlagklappeCheck valve
- 1010
- SteuergerätControl unit
- 1111
- BrennkammerCombustion chamber
- 301301
- Zeitpunkt t2 Time t 2
- 302302
- Startzeit tstart Start time t start
- 303303
- Laufzeit tlauf Run time t run
- 304304
- Messwert-Zeitreihe V(t)Measured value time series V (t)
- 305305
- Zeitreihe G(t)Time series G (t)
- 306306
- Zeitpunkt tstop Time t stop
Claims (8)
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012004211A2 (en) | 2010-07-07 | 2012-01-12 | Robert Bosch Gmbh | Method for controlling combustion in a gas or oil burner |
DE102012006767A1 (en) * | 2012-04-03 | 2013-10-10 | Audi Ag | Method for operating an internal combustion engine and corresponding internal combustion engine |
US20160299225A1 (en) * | 2015-04-09 | 2016-10-13 | Siemens Energy, Inc. | Method for estimating time of flight for acoustic pyrometry |
WO2018089668A2 (en) * | 2016-11-11 | 2018-05-17 | Carrier Corporation | High sensitivity fiber optic based detection |
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US4639598A (en) | 1985-05-17 | 1987-01-27 | Santa Barbara Research Center | Fire sensor cross-correlator circuit and method |
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- 2020-04-29 DE DE102020111637.3A patent/DE102020111637A1/en active Pending
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- 2021-04-09 EP EP21167561.6A patent/EP3904766B1/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012004211A2 (en) | 2010-07-07 | 2012-01-12 | Robert Bosch Gmbh | Method for controlling combustion in a gas or oil burner |
DE102010026389A1 (en) * | 2010-07-07 | 2012-01-12 | Robert Bosch Gmbh | Method for controlling combustion in a gas or oil burner |
DE102012006767A1 (en) * | 2012-04-03 | 2013-10-10 | Audi Ag | Method for operating an internal combustion engine and corresponding internal combustion engine |
US20160299225A1 (en) * | 2015-04-09 | 2016-10-13 | Siemens Energy, Inc. | Method for estimating time of flight for acoustic pyrometry |
WO2018089668A2 (en) * | 2016-11-11 | 2018-05-17 | Carrier Corporation | High sensitivity fiber optic based detection |
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DE102020111637A1 (en) | 2021-11-04 |
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