Your search keyword '"Cabeza, I. O."' showing total 12 results

1. Treatment of Gases Contaminated with Methyl Ethyl Ketone (MEK) by Biofilters Packed with Municipal Solid Waste (Msw) - Pruning Residues (P) Composts: Performance Assessment

Author

López Núñez, Rafael, Cabeza, I. O., Giráldez, I., Lock-Wah-Hoon, Jerome, and Díaz Blanco, M. J.

Abstract

The abatement of methyl ethyl ketone (MEK) commonly emitted during co-composting of municipal solid waste (MSW) was studied using a biofiltration system. MSW or MSW mixed with pruning residues (MSW-P) were used as packing materials. The monitoring of the system under transient state conditions was carried out using a photoionization analyser, an e-nose, and GC/MS. MEK removal efficiencies greater than 90% were obtained. An acclimatization period of 14 days was required for both biofilters studied. The hydrophilic nature of the contaminant (MEK) and the moisture content of the beds influenced the treatment process of the contaminant by biofiltration. The optimal range of moisture content for the packing materials used was between 21.5 % and 67.5 % (d.w) (MSW biofilter) and between 25.7 % and 91.8 % (d.w) (MSW-P biofilter). E-nose and GC/MS data indicate a complete degradation of MEK, although the e-nose did detect background emissions, characteristic of each type of biofilter. It was possible to obtain information about the performance of the biofiltration system at different stages of the experiment and results suggest that e-nose analysis could become a more powerful tool for monitoring volatile organic compounds (VOCs) in biofiltration and composting in the future., International Centre for Sustainable Development of Energy, Water and Environment Systems (SDEWES)

Published

2014

2. Biofiltración de compuestos orgánicos y volátiles utilizando diferentes tipos de lecho basados en mezclas de compost de RSU-poda: monitorización mediante diversas técnicas

Author

Cabeza, I. O., López Núñez, Rafael, and Díaz Blanco, M. J.

Abstract

Composting is one of the most successful biological processes for the treatment of the residues enriched in putrescible materials. The optimization of parameters which have an influence on the stability of the products is necessary in order to maximize recycling and recovery of waste components. The influence of the composting process parameters (aeration, moisture, C/N ratio, and time) on the stability parameters (organic matter, N-losses, chemical oxygen demand, nitrate, biodegradability coefficient) of the compost was studied. The composting experience was carried out using Municipal Solid Waste (MSW) and Legume Trimming Residues (LTR) in 200 L isolated acrylic barrels following a Box-Behnken central composite experimental design. Second-order polynomial models were found for each of the studied compost stability parameter, which accurately described the relationship between the parameters. Results of the modelling showed that excluding the time, the C/N ratio is the strongest variable influencing almost all the stability parameters studied in this case, with the exception of N-losses which is strongly dependent on moisture. Moreover, an optimized ratio MSW/LTR of 1/1 (w/w), moisture content in the range of 40-55% and moderate to low aeration rate (0.05-0.175 Lair kg-1 min-1) is recommended to maximise degradation and to obtain a stable product during co-composting of MSW and LTR., El presente trabajo ha sido realizado con la ayuda del Fondo Social Europeo, el proyecto de Investigación CTM2007- 62117/TECNO financiado por el Plan Nacional de I+D+i del gobierno de España y el programa de formación de personal investigador JAE-Predoc del CSIC.

Published

2013

3. Main odorous volatile organic compounds emitted in municipal solid waste composting: Influence of process control parameters

Author

Delgado Rodríguez, Margarita, Cabeza, I. O., Ruiz Montoya, M., Giráldez, I., López Núñez, Rafael, Madejón, Engracia, and Díaz Blanco, M. J.

Subjects

Composting, VOC, Minimización, COV, Odor, Minimisation, Compostaje, MSW, RSU

Abstract

9 páginas, 9 figuras, 2 tablas, 16 referencias., [EN]: The relative statistical influence of control parameters, used in industrial composting of Municipal Salid Waste (MSW), such as aeration (0.05-0.300 Lair kg-1 min-1) and moisture content (40-70%) on the amount and composition of the gases and odorous volatile organic compounds (COVs) generated in this process have been studied. Specifically the evolution of limonene, ß-pinene, 2-butanone, undecane, phenol, toluene, dimethyl-sulfide and dimethyl-disulfide has been studied. The greatest amount of odor-generating compounds was emitted into the initial mesophilic-thermophilic phase and, after that, a continuous decrease has been observed during the mesophilic phase. Aeration has higher statistical influence on the composition of the studied gases generated than that of moisture. A high level of aeration (0.300 Lair kg-1 min-1) caused high emissions of the studied gases. Moreover under low aeration levels (0.05 Lair kg-1 min-1) certain anaerobic stages have been found during the thermophilic phase., [ES]: En el presente estudio se ha evaluado la influencia de los parámetros de control utilizados en el compostaje de Residuos Sólidos Urbanos (RSU), como son la aireación (0.05-0.300 Laire kg-1 min-1) y la humedad (40-70%) en la cantidad y composición de los gases y compuestos orgánicos volátiles olorosos generados en este proceso. Concretamente se ha estudiado la evolución de limoneno, ß-pineno, 2-butanona, undecano, fenol, tolueno, sulfuro de dimetilo y disulfuro de dimetilo sulfuro de dimetilo. La mayor cantidad de gases generadores de olor se emitieron en la etapa mesófila inicial y en la termófila decreciendo la cantidad de éstos durante la etapa de maduración. Los cambios en la aireación presentaron, tras su análisis estadístico, una mayor influencia en la variación de la composición de los gases generados que la provocada por los cambios en la humedad. Altos niveles de aireación (0.300 Laire kg-1 min-1) provocaron altos niveles de emisión de los gases estudiados. Por otra parte, bajos niveles (0.05 Laire kg-1 min-1) dieron lugar a episodios de anaerobiosis provocando cierta emisión de compuestos de azufre., Los autores agradecen el apoyo fi nanciero de la CICYT (Comisión Interministerial Ciencia - Gobierno de España - cofinanciado FEDER), número de proyecto CTM2007- 621171TECNO. A SAO ECO S.A por el material. Un agradecimiento especial al Fondo Social Europeo (VSG) y el Ministerio de Economía y Competitividad de España por la financiación de Cabeza 1.0.

Published

2012

4. Monitoring the biofiltration of a·pinene vapours through municipal solid waste and pruning residues composts using an e-nose

Author

López Núñez, Rafael, Cabeza, I. O., Lock-Wah-Hoon, Jerome, Giráldez, I., Ruiz Montoya, M., and Díaz Blanco, M. J.

Subjects

Terpenoides, Volatile organic compounds, Compuestos orgánicos volátiles, Terpenoid

Abstract

7 páginas, 3 figuras, 6 tablas, 15 referencias.-- Conferencia celebrada del 27-28 de noviembre 2012 en Madrid, España., [EN]: The volatile organic compound (VOC) a-pinene, one of the most abundant component emitted during the composting of urban waste (MSW) and pruning waste (P), was lreated in biofilters filled up with a MSW compost or a MSW+P compost. A photoionization detector was used to carry out the monitoring of the biofilters efficiency but GC-MS and an electronic nose were also used for the process study. Moisture content in biofilters below 66% (dw, MSW) or 51% (dw, MSWP) made efficiency decrease to less than 90%. GC-MS spectra indicated no intermediate products from 0- pi nene degradation appeared but e-nose data indicates a "smell" corresponding to Scompounds produced in MSW biofilter. These results show that electronic noses could become a powerful tool for the monitoring of VOC compounds in biofiltering and composting processes., [ES]: Las plantas de compostaje causan frecuentemente problemas de malos olores por los compuestos orgánicos volátiles (COV) emitidos, entre ellos el pineno. En el presente trabajo se estudia la eficacia de dos biofiltros rellenos con diferentes compost de RSU y restos de poda (P) en la biofiltración de a-pineno y la incidencia de diferentes condiciones operativas, en particular de la humedad del lecho de compost, haciendo uso de una combinación de técnicas: medidor de COV con detector de fotoionización, nariz electrónica y GC-MS. Ambos tipos de biofiltros mostraron gran eficacia en la biodegradación de a-pineno, con eficiencia del 100% para una concentración inicial de hasta 50 ppmv. La eficiencia de biodegradación resultó muy dependiente de la humedad del lecho, con una importante reducción al disminuir la humedad por debajo de 66% sms en el caso de RSU o del 51% sms en el caso de RSU+P. Tanto con la nariz electrónica como mediante GC-MS se comprobó que la degradación de a-pineno fue completa, sin que aparecieran compuestos intermedios de degradación. Sin embargo, la nariz mostró una emisión de fondo propia de cada biofiltro por debajo del límite de detección de las otras técnicas. La nariz electrónica demostró ser una herramienta muy útil, simplificando el muestreo y permitiendo realizar un seguimiento casi en continuo. Los biofiltros basados en RSU y restos de poda son eficaces para la biofiltración de pineno aunque la humedad del sistema debe ser cuidadosamente controlada., Este trabajo ha sido financiado por CICYT-FEDER, proyecto CTM2007- 62117fTECNO y mediante una beca JAE Predoc 062 otorgada a Iván Cabeza.

Published

2012

5. Influencia de las variables de operación en la composición de los Compuestos Orgánicos Volátiles generadores de olor emitidos en el compostaje de RSU

Author

Delgado Rodríguez, Margarita, Cabeza, I. O., Ruiz Montoya, Mercedes, Giráldez Díaz, Inmaculada, López, Rafael, Madejón Rodríguez, Engracia, and Díaz Blanco, Manuel Jesús

Abstract

En el presente estudio se ha evaluado la influencia de los parámetros de control utilizados en el compostaje de Residuos Sólidos Urbanos (RSU), como son la aireación (0.05-0.300 Laire kg-1 min-1) y la humedad (40-70%) en la cantidad y composición de los gases y compuestos orgánicos volátiles olorosos generados en este proceso. Concretamente se ha estudiado la evolución de limoneno, ß-pineno, 2-butanona, undecano, fenol, tolueno, sulfuro de dimetilo y disulfuro de dimetilo sulfuro de dimetilo. La mayor cantidad de gases generadores de olor se emitieron en la etapa mesófila inicial y en la termófila decreciendo la cantidad de éstos durante la etapa de maduración. Los cambios en la aireación presentaron, tras su análisis estadístico, una mayor influencia en la variación de la composición de los gases generados que la provocada por los cambios en la humedad. Altos niveles de aireación (0.300 Laire kg-1 min-1) provocaron altos niveles de emisión de los gases estudiados. Por otra parte, bajos niveles (0.05 Laire kg-1 min-1) dieron lugar a episodios de anaerobiosis provocando cierta emisión de compuestos de azufre., The relative statistical influence of control parameters, used in industrial composting of Municipal Salid Waste (MSW), such as aeration (0.05-0.300 Lair kg-1 min-1) and moisture content (40-70%) on the amount and composition of the gases and odorous volatile organic compounds (COVs) generated in this process have been studied. Specifically the evolution of limonene, ß-pinene, 2-butanone, undecane, phenol, toluene, dimethyl-sulfide and dimethyl-disulfide has been studied. The greatest amount of odor-generating compounds was emitted into the initial mesophilic-thermophilic phase and, after that, a continuous decrease has been observed during the mesophilic phase. Aeration has higher statistical influence on the composition of the studied gases generated than that of moisture. A high level of aeration (0.300 Lair kg-1 min-1) caused high emissions of the studied gases. Moreover under low aeration levels (0.05 Lair kg-1 min-1) certain anaerobic stages have been found during the thermophilic phase.

Published

2012

6. Maximising municipal solid waste - Legume trimming residue mixture degradation in composting by control parameters optimization

Author

Cabeza, I. O., López Núñez, Rafael, Ruiz Montoya, M., Díaz Blanco, M. J., Cabeza, I. O., López Núñez, Rafael, Ruiz Montoya, M., and Díaz Blanco, M. J.

Abstract

Composting is one of the most successful biological processes for the treatment of the residues enriched in putrescible materials. The optimization of parameters which have an influence on the stability of the products is necessary in order to maximize recycling and recovery of waste components. The influence of the composting process parameters (aeration, moisture, C/N ratio, and time) on the stability parameters (organic matter, N-losses, chemical oxygen demand, nitrate, biodegradability coefficient) of the compost was studied. The composting experiment was carried out using Municipal Solid Waste (MSW) and Legume Trimming Residues (LTR) in 200L isolated acrylic barrels following a Box-Behnken central composite experimental design. Second-order polynomial models were found for each of the studied compost stability parameter, which accurately described the relationship between the parameters. The differences among the experimental values and those estimated by using the equations never exceeded 10% of the former. Results of the modelling showed that excluding the time, the C/N ratio is the strongest variable influencing almost all the stability parameters studied in this case, with the exception of N-losses which is strongly dependent on moisture. Moreover, an optimized ratio MSW/LTR of 1/1 (w/w), moisture content in the range of 40-55% and moderate to low aeration rate (0.05-0.175Lairkg-1min-1) is recommended to maximise degradation and to obtain a stable product during co-composting of MSW and LTR.

Published

2013

7. Biofiltración de compuestos orgánicos y volátiles utilizando diferentes tipos de lecho basados en mezclas de compost de RSU-poda: monitorización mediante diversas técnicas

Author

López Núñez, Rafael, Díaz Blanco, M. J., Cabeza, I. O., López Núñez, Rafael, Díaz Blanco, M. J., and Cabeza, I. O.

Abstract

Composting is one of the most successful biological processes for the treatment of the residues enriched in putrescible materials. The optimization of parameters which have an influence on the stability of the products is necessary in order to maximize recycling and recovery of waste components. The influence of the composting process parameters (aeration, moisture, C/N ratio, and time) on the stability parameters (organic matter, N-losses, chemical oxygen demand, nitrate, biodegradability coefficient) of the compost was studied. The composting experience was carried out using Municipal Solid Waste (MSW) and Legume Trimming Residues (LTR) in 200 L isolated acrylic barrels following a Box-Behnken central composite experimental design. Second-order polynomial models were found for each of the studied compost stability parameter, which accurately described the relationship between the parameters. Results of the modelling showed that excluding the time, the C/N ratio is the strongest variable influencing almost all the stability parameters studied in this case, with the exception of N-losses which is strongly dependent on moisture. Moreover, an optimized ratio MSW/LTR of 1/1 (w/w), moisture content in the range of 40-55% and moderate to low aeration rate (0.05-0.175 Lair kg-1 min-1) is recommended to maximise degradation and to obtain a stable product during co-composting of MSW and LTR.

Published

2013

8. Biofiltration of composting gases using different municipal solid waste-pruning residue composts: Monitoring by using an electronic nose

Author

López Núñez, Rafael, Cabeza, I. O., Giráldez, I., Díaz, M. J., López Núñez, Rafael, Cabeza, I. O., Giráldez, I., and Díaz, M. J.

Abstract

The concentration of volatile organic compounds (VOCs) during the composting of kitchen waste and pruning residues, and the abatement of VOCs by different compost biofilters was studied. VOCs removal efficiencies greater than 90% were obtained using composts of municipal solid waste (MSW) or MSW-pruning residue as biofilter material. An electronic nose identified qualitative differences among the biofilter output gases at very low concentrations of VOCs. These differences were related to compost constituents, compost particle size (2-7 or 7-20. mm), and a combination of both factors. The total concentration of VOCs determined by a photoionization analyser and inferred from electronic nose data sets were correlated over an ample range of concentrations of VOCs, showing that these techniques could be specially adapted for the monitoring of these processes.

Published

2011

9. Effect of control parameters on emitted volatile compounds in municipal solid waste and pine trimmings composting

Author

Delgado Rodríguez, Margarita, Ruiz Montoya, M., Giráldez, I., Cabeza, I. O., López Núñez, Rafael, Díaz, M. J., Delgado Rodríguez, Margarita, Ruiz Montoya, M., Giráldez, I., Cabeza, I. O., López Núñez, Rafael, and Díaz, M. J.

Abstract

To investigate the effect of control parameters (moisture, aeration and C/N ratio) on the composting evolution (temperature, pH, O2 and volatile compounds (VCs)) of municipal solid waste and pine trimmings, a central composite experimental design was used. The ANFIS modelling obtained shows that all the independent parameters were clearly influenced by the studied parameters. The relative influence of the other independent variables on temperature was C/N > moisture > aeration. However, for pH, O2 and VCs followed the order C/N > aeration > moisture. Moreover, the results were concordant, with a positive relation between temperature and VCs. In this way, lower VCs contents in ambient atmosphere have been found by using medium-to-high aeration (< 0.1 l(air) kg(-1) min(-1)), medium-to-high C/N (60-77) and high moisture (> 55%).

Published

2010

10. Effect of control parameters on emitted volatile compounds in municipal solid waste and pine trimmings composting

Author

Delgado-Rodríguez, M., primary, Ruiz-Montoya, M., additional, Giraldez, I., additional, Cabeza, I. O., additional, López, R., additional, and Díaz, M. J., additional

Published

2010

11. Maximising municipal solid waste--legume trimming residue mixture degradation in composting by control parameters optimization.

Author

Cabeza IO, López R, Ruiz-Montoya M, and Díaz MJ

Subjects

Biodegradation, Environmental, Biological Oxygen Demand Analysis, Carbon metabolism, Nitrates, Nitrogen metabolism, Fabaceae metabolism, Models, Theoretical, Soil, Solid Waste, Waste Management methods

Abstract

Composting is one of the most successful biological processes for the treatment of the residues enriched in putrescible materials. The optimization of parameters which have an influence on the stability of the products is necessary in order to maximize recycling and recovery of waste components. The influence of the composting process parameters (aeration, moisture, C/N ratio, and time) on the stability parameters (organic matter, N-losses, chemical oxygen demand, nitrate, biodegradability coefficient) of the compost was studied. The composting experiment was carried out using Municipal Solid Waste (MSW) and Legume Trimming Residues (LTR) in 200 L isolated acrylic barrels following a Box-Behnken central composite experimental design. Second-order polynomial models were found for each of the studied compost stability parameter, which accurately described the relationship between the parameters. The differences among the experimental values and those estimated by using the equations never exceeded 10% of the former. Results of the modelling showed that excluding the time, the C/N ratio is the strongest variable influencing almost all the stability parameters studied in this case, with the exception of N-losses which is strongly dependent on moisture. Moreover, an optimized ratio MSW/LTR of 1/1 (w/w), moisture content in the range of 40-55% and moderate to low aeration rate (0.05-0.175 Lair kg(-)(1) min(-1)) is recommended to maximise degradation and to obtain a stable product during co-composting of MSW and LTR., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

12. Biofiltration of composting gases using different municipal solid waste-pruning residue composts: monitoring by using an electronic nose.

Author

López R, Cabeza IO, Giráldez I, and Díaz MJ

Subjects

Volatile Organic Compounds isolation & purification, Electronics, Filtration methods, Gases, Refuse Disposal, Soil

Abstract

The concentration of volatile organic compounds (VOCs) during the composting of kitchen waste and pruning residues, and the abatement of VOCs by different compost biofilters was studied. VOCs removal efficiencies greater than 90% were obtained using composts of municipal solid waste (MSW) or MSW-pruning residue as biofilter material. An electronic nose identified qualitative differences among the biofilter output gases at very low concentrations of VOCs. These differences were related to compost constituents, compost particle size (2-7 or 7-20mm), and a combination of both factors. The total concentration of VOCs determined by a photoionization analyser and inferred from electronic nose data sets were correlated over an ample range of concentrations of VOCs, showing that these techniques could be specially adapted for the monitoring of these processes., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011