Q3178841 (Q3178841): Difference between revisions
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(Created claim: summary (P836): The project aims to detect reactive species in combustion systems. A scientific team is requested that can characterise the conditions within the flame reaction zone using Laser Induced Fluorescence (LIF), which allows the monitoring of the most important intermediate species. The equipment allows instant determination of the temperature field and the identification of the most active areas in combustion, achieving a perfect characterisation of...) |
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The project aims to detect reactive species in combustion systems. A scientific team is requested that can characterise the conditions within the flame reaction zone using Laser Induced Fluorescence (LIF), which allows the monitoring of the most important intermediate species. The equipment allows instant determination of the temperature field and the identification of the most active areas in combustion, achieving a perfect characterisation of the flame structure and its stability. _x000D_ research includes the generation of data to develop prototypes for energy microgeneration through waste recovery (biofuel generation and energy production). It focuses on the use of biogas digestion and bio-oils obtained from pyrolysis. The first line of research will generate information for the stable operation of equipment intended for the use of biogas which faces excessively fuel-poor mixing conditions leading to stability problems. It is therefore intended to add H2 to the system to stabilise combustion. On the other hand, the thermal use of bio-oils and the characteristics of their combustion versus the generation of soot is also considered to develop systems that operate with blends of conventional bio-oils/diesel to reduce the emission of nanoparticles. (English) | |||||||||||||||
| Property / summary: The project aims to detect reactive species in combustion systems. A scientific team is requested that can characterise the conditions within the flame reaction zone using Laser Induced Fluorescence (LIF), which allows the monitoring of the most important intermediate species. The equipment allows instant determination of the temperature field and the identification of the most active areas in combustion, achieving a perfect characterisation of the flame structure and its stability. _x000D_ research includes the generation of data to develop prototypes for energy microgeneration through waste recovery (biofuel generation and energy production). It focuses on the use of biogas digestion and bio-oils obtained from pyrolysis. The first line of research will generate information for the stable operation of equipment intended for the use of biogas which faces excessively fuel-poor mixing conditions leading to stability problems. It is therefore intended to add H2 to the system to stabilise combustion. On the other hand, the thermal use of bio-oils and the characteristics of their combustion versus the generation of soot is also considered to develop systems that operate with blends of conventional bio-oils/diesel to reduce the emission of nanoparticles. (English) / rank | |||||||||||||||
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| Property / summary: The project aims to detect reactive species in combustion systems. A scientific team is requested that can characterise the conditions within the flame reaction zone using Laser Induced Fluorescence (LIF), which allows the monitoring of the most important intermediate species. The equipment allows instant determination of the temperature field and the identification of the most active areas in combustion, achieving a perfect characterisation of the flame structure and its stability. _x000D_ research includes the generation of data to develop prototypes for energy microgeneration through waste recovery (biofuel generation and energy production). It focuses on the use of biogas digestion and bio-oils obtained from pyrolysis. The first line of research will generate information for the stable operation of equipment intended for the use of biogas which faces excessively fuel-poor mixing conditions leading to stability problems. It is therefore intended to add H2 to the system to stabilise combustion. On the other hand, the thermal use of bio-oils and the characteristics of their combustion versus the generation of soot is also considered to develop systems that operate with blends of conventional bio-oils/diesel to reduce the emission of nanoparticles. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 19:30, 12 October 2021
Project Q3178841 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3178841 in Spain |
Statements
135,000.0 Euro
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270,000.0 Euro
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50.0 percent
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1 January 2016
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30 June 2018
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UNIVERSIDAD DE LEON
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42°38'2.94"N, 5°58'17.11"W
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24089
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Con el proyecto se pretende realizar la detección de especies reactivas en sistemas de combustión. Se solicita un equipo científico que puede caracterizar las condiciones dentro de la zona de reacción de llama mediante la Fluorescencia Inducida por Láser (LIF), la cual permite el seguimiento de las especies intermediarias más importantes. El equipo permite la determinación instantánea del campo de temperaturas y la identificación de las zonas más activas en la combustión lográndose una perfecta caracterización de la estructura de la llama y su estabilidad. _x000D_ La investigación comprende la generación de datos para desarrollar prototipos destinados a la mircrogeneración de energía mediante la valorización de residuos (generación de biocombustibles y producción de energía). Se centra en el uso biogás de digestión y bio-oils obtenidos de la pirolisis. Con la primera línea de investigación se generará información para el funcionamiento estable de equipos destinados a la utilización del biogás los cuales se enfrentan a condiciones de mezcla excesivamente pobre en combustible lo que conlleva problemas de estabilidad. Por ello se pretende la adición de H2 al sistema para estabilizar la combustión. Por otra parte también se plantea el aprovechamiento térmico de los bio-oils y las características de su combustión frente a la generación de hollín con para desarrollar sistemas que operen con mezclas de bio-oils/diésel convencional lograr reducir la emisión de nanopartículas. (Spanish)
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The project aims to detect reactive species in combustion systems. A scientific team is requested that can characterise the conditions within the flame reaction zone using Laser Induced Fluorescence (LIF), which allows the monitoring of the most important intermediate species. The equipment allows instant determination of the temperature field and the identification of the most active areas in combustion, achieving a perfect characterisation of the flame structure and its stability. _x000D_ research includes the generation of data to develop prototypes for energy microgeneration through waste recovery (biofuel generation and energy production). It focuses on the use of biogas digestion and bio-oils obtained from pyrolysis. The first line of research will generate information for the stable operation of equipment intended for the use of biogas which faces excessively fuel-poor mixing conditions leading to stability problems. It is therefore intended to add H2 to the system to stabilise combustion. On the other hand, the thermal use of bio-oils and the characteristics of their combustion versus the generation of soot is also considered to develop systems that operate with blends of conventional bio-oils/diesel to reduce the emission of nanoparticles. (English)
12 October 2021
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León
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Identifiers
UNLE15-EE-3070
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