Biodegradation of Organic Micropollutants in Themophilic and Mesophilic Anareobic Digestion of Sewage Sludge

Benabdallah El-Hadj, Toufik

11 October 2006

Nowadays, mesophilic anaerobic processes (under 35ºC) predominate but they show to be unable to accomplish the new specifications. Consequently, only the migration to higher temperature conditions, i.e. thermophilic operation, seems to be capable of producing stabilized sludge that meets the new restrictions related to the presence of harmful bacteria. In addition, the effect of anaerobic digestion on organic micropollutants has scarcely been studied. Moreover, the temperature impact on these compounds in anaerobic digestion of sewage sludge has also not been elucidated.The overall objective of this work is to study the fate of some organic micropollutants during raw sewage sludge (RSS) anaerobic digestion and the effect of thermophilic temperature conditions on treatment efficiency, when compared with mesophilic anaerobic. To this purpose, a mesophilic and thermophilic anaerobic digester were operated using Waste Activated Sludge (WAS) as inoculum and the effects of Hydraulic Retention Time (HRT) reduction and its influence on the fate of the selected organic micropollutants (namely, PAH, DEHP, AOX, PCB, NPE and LAS) were studied. Furthermore, the effect of a complementary treatment, namely the ultrasonic pretreatment, on the biodegradability of the organic feed and the behaviour of the subsequent anaerobic digestion was also examined, focussing on the micropollutants reduction.The main conclusions of every set experimental are presented:Start-up and HRT reduction· The use of WAS as inoculum for anaerobic digesters start-up represents a good option specially under thermophilic conditions.· Thermophilic anaerobic digestion is a good alternative to mesophilic digestion in order to improve specific biogas production.· The similar values of organic matter removal (VS) registered in both digesters.· 8 days was found to be the minimum HRT for the thermophilic digester, since VFA accumulation and pH decrease inhibited the process when working at a lower HRT. Organic micropollutants removal· Organic micropollutants removal efficiency was enhanced under thermophilic conditions.· The HRT influence was clearly observed for DEHP and PCB, independently of digestion temperature. However, it was temperature dependent for PAH, AOX, LAS and espcially for NPE.· NPE and DEHP are identified as the more recalcitrants contaminants.· The thermophilic conditions were not ensured the sludge safety conditions for agriculture use.· The accumulation of some compounds as NP and LCB was observed.· NP was stated as the intermediate compound of NPEO anaerobic degradation. Moreover, LCB were generated during HCB reductive dechlorination during anaerobic digestion.· Monitoring the metabolites of cited contaminants can be elucidated their biodegradation mechanisms and prevent any undesirable effects.Ultrasound-anaerobic digestion combined treatment· Organic matter removal, SBP and naphthalene removal were enhanced using the combined treatment in both digesters.· High organic matter removal, SBP and napthalene removal was registered in the thermo-digester.· Higher was enhancement of organic matter removal, SBP and naphthalene removal in the meso-digester than in the thermo-digester. · Pyrene removal was nearly the same with and without pretreatment.· It seems that the ultrasonic pretreatment affect more the mesophilic than the thermophilic digestion.· The results obtained in this combined treatment (ultrasound + anaerobic digestion) are promising and suggest the convenience of other investigations of other combined treatments to enhance the stabilized sludge quality.

Compostos orgànics

Medi ambient

Contaminació

Llots i fangs residuals

Estacions depuradores

Tractament d'aigues residuals

Digestors anaeròbics

Ciències Experimentals i Matemàtiques

628

Adsorbentes preparados a partir de residuos y su aplicación en la eliminación de compuestos causantes de olores (NH3 y H2S)

Canals Batlle, Carla

30 November 2012

This thesis is focused on two environmental issues. The first one is the recovery of different wastes, such as sewage sludge and fly ashes, and the second one is related to the removal of odour causing compounds which are generated in the same waste water treatment plant (WWTP), like NH3 and H2S. Direct alkaline activation with NaOH and KOH of two sludges which have different specific treatments in the sewage sludge line, has been studied, and it has been compared with the activation of their chars. Two different heating mechanisms were applied: conventional heating and microwave oven heating. All the sewage sludge-derived materials are tested for NH3 removal adsorption experiments. On the other hand it has been studied the preparation of adsorbents by mixing on sewage sludge with fly ashes heated in a microwave oven. The materials adsorbents have a limited development of porosity and are tested for H2S removal. / Esta tesis se centra en dos problemáticas medioambientales. Una es la valorización de residuos, como son los lodos de depuradora y cenizas volantes, y la otra incide en la eliminación de compuestos causantes de malos olores que se generan en las estaciones depuradoras de agua residual (EDARs), como son el NH3 y el H2S. Se ha estudiado la activación alcalina directa con NaOH y KOH de dos lodos, que emplean procesos diferentes en su línea de lodos, y se ha comparado con la activación de sus respectivos pirolizados, usando dos tipos de calentamiento: convencional y microondas. Todos estos materiales se han aplicado a la eliminación de NH3. Por otro lado se estudió la obtención de adsorbentes a partir de un lodo mezclado con distintas proporciones de cenizas volantes en un horno microondas. Estos materiales presentan un desarrollo de la porosidad limitado, y han sido empleados para la eliminación de H2S.

Gestió de residus

Refuse and refuse disposal

Gestión de residuos

Depuració d'aigües residuals

Watewater treatment

Depuración de aguas residuales

Fangs residuals

Sewage sludge

Lodos de depuradora

Adsorció

Adsorption

Adsorción

Control d'olors

Odor control

Control de olores

62

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66

Eliminación de compuestos causantes de olores mediante adsorbentes/catalizadores obtenidos a partir de lodos de depuradora

Ros Sans, Anna

16 December 2006

El aumento de la cantidad de lodos y las dificultades inherentes a su aplicación agrícola y/o disposición en vertederos, hace necesario encontrar nuevas alternativas para su gestión. A nivel europeo, hoy en día se tiende hacia la aplicación de tratamientos térmicos (incineración, pirólisis y gasificación) que permiten una valoración energética de los lodos, si bien generan un residuo sólido que sigue siendo necesario gestionar. El problema medioambiental provocado por (malos) olores resulta difícil de abordar de una manera genérica, teniendo en consideración la propia naturaleza del olor y sus posibles causas. Los olores en las EDARs son provocados básicamente por la degradación de la materia orgánica en condiciones anaeróbicas y se detectan en todas las operaciones unitarias en diferentes niveles de concentración. Esta tesis incidiendo en ambos aspectos, tiene por objeto investigar la valorización de lodos como materiales precursores de adsorbentes/ catalizadores para la eliminación de olores en el entorno de las EDARs, maximizando la reutilización de los lodos.Para la realización de los experimentos se han seleccionado lodos procedentes de tres EDARs situadas en la región de Girona (SC, SB, SL) que difieren en cuanto al tratamiento de los lodos. Ambas muestras han sido caracterizadas con el fin de determinar las diferencias más importantes en los lodos de partida. Los parámetros de caracterización incluyen el análisis de composición química (análisis elemental e inmediato, determinación contenido en cenizas, medida pH, DRX, FT-IR, SEM / EDX) así como análisis de superficie (adsorción de N2 y CO2). En primer lugar los lodos caracterizados han sido sometidos a diferentes tratamientos térmicos de gasificación y pirólisis y los adsorbentes/ catalizadores obtenidos se han probado como adsorbentes para la eliminación de H2S. Como consecuencia de este estudio, se ha desechado el uso de uno de lodos (SC) puesto que se obtenían resultados muy similares a (SB), a continuación el estudio se centró en el lodo de SL. Con este objetivo se han preparado 12 muestras 6 de ellas pirolizadas y 6 gasificadas en el rango de temperaturas que comprende 600-1100 ºC. Posteriormente las muestras han sido caracterizadas y se ha determinado la capacidad de eliminación (x/M) del H2S. Los resultados muestran que hemos sido capaces de obtener unos materiales que si bien, presentan un bajo desarrollo de porosidad dan lugar a valores de capacidades de eliminación elevados y comparables a carbones y materiales adsorbentes comerciales (Centaur, Sorbalit). Las elevadas eficiencias de eliminación se atribuyen básicamente a la presencia de especies catalíticamente activas tales como los óxidos mixtos de calcio y hierro determinados por DRX en las muestras tratadas térmicamente. El segundo bloque de resultados se centra la mejora de las propiedades texturales de estos materiales adsorbentes. Con este objetivo se llevaron acabo procesos de activación física con CO2 y química con H3PO4 e hidróxidos alcalinos (NaOH y KOH), que hasta el momento no se había probado con este tipo de precursores. Los resultados indican que la activación física (CO2) y química (H3PO4) no son unos buenos métodos para la obtención de adsorbentes altamente porosos con este tipo de materia prima bajo las condiciones probadas, sin embargo la activación con hidróxidos alcalinos da lugar a materiales adsorbentes con superficies específicas de hasta 1600 m2g-1. En el caso de la activación con hidróxidos, tanto el incremento de la relación agente activante/ precursor como el incremento de la temperatura producen un descenso del rendimiento, al mismo tiempo que incrementan el valor de SBET.Los materiales resultantes de la activación con hidróxidos alcalinos se han probado como adsorbentes/ catalizadores para la eliminación de H2S. Los resultados indican que un incremento del área superficial no es indicativo de un aumento de la capacidad de eliminación dada la naturaleza ácida de estos materiales obtenidos. Con el fin de contrarrestar el efecto ácido de estos materiales se han realizado los mismos ensayos añadiendo NaOH al lecho de reacción llegando a valores de x/M de hasta 450 mgg-1. Posteriormente también se han realizado ensayos de eliminación de NH3 con algunas de estas muestras, y los resultados obtenidos de x/M son del orden de carbones activados comerciales. Los materiales adsorbentes obtenidos tras la activación con hidróxidos alcalinos se convierten en materiales muy atractivos para ser utilizados como adsorbentes/ catalizadores de múltiples contaminantes (COVs, Hg...). / During the last years there has been an increase in the number of wastewater treatment plants arising after the implementation of regulatory policies focused on sustainable development of contemporary societies. A large quantity of sewage sludge is produced and in addition, some traditional disposal routes are coming under pressure and others are being phased out. Therefore, it is necessary to seek cost-effective and innovate solutions to the problem incurred by sewage sludge disposal. Nowadays, the tendency in Europe is to use this residue to obtain energy by thermal treatments, such as incineration, pyrolysis and gasification, though during this treatment a residue that needs to be disposed is generated.Furthermore, the environmental problems prompted by odors are difficult to solve take considering the different origin and reasons for these bad smells. Bad smell in waste water treatment plants is produced basically by organic matter degradation. This thesis takes into account these two aspects. The aim of this work focuses on the revalorization of sewage sludge to obtain / prepare adsorbents / catalysts from various sewage-based precursors and their application in H2S and in NH3 abatement at ambient temperature. These two latter compounds are paradigmatic in odor related problems.The sewage sludge samples used in this study were obtained from three Spanish WWTPs located in Girona (SC, SB, SL). The influent of these selected facilities is mainly of domestic origin and differs in sludge treatment schemes. A detailed characterization of the solids under consideration is carried out, as a purpose to define the main differences. The techniques used to characterize precursors include chemical characterization (elemental analysis, ash content, pH determination, DRX, FT-IR, SEM / EDX), as well as their porosity characterization (physical adsorption of N2 and CO2).In the first part of the study we focused on dried samples that were subjected to different thermal treatments such as pyrolysis and gasification at different temperatures. The adsorbents/catalysts obtained were used for H2S removal. Afterwards, 12 samples were prepared from SL, 6 of them gasified between 600 - 1100 ºC and 6 pyrolysed at the same temperatures. The samples were characterized and used as an adsorbents for H2S removal. The results shown that we were able to obtain adsorbents with high removal efficiencies despite their low porosity development. These adsorption capacities values (x/M) are in the same range or even higher than x/M values from commercial active carbons (Centaur, Sorbalit). These high x/M values have been prompted to catalytic species such as dicalcium ferrite, identified by XRD.The second part of the study was focused on the preparation of adsorbents from these sewage sludge-based precursors (SB, SL) using different activation processes. Specifically, physical activation with CO2, H3PO4 activation and alkaline hydroxide activation were explored. It is worth noticing that, as far as we know, there are no previous studies in the literature dealing with the activation of sewage sludge by alkaline hydroxides (NaOH or KOH), whereas CO2 and H3PO4 have been scarcely used for the activation of this precursor. The results of the textural characterization of the materials prepared from physical activation by CO2 and chemical activation by H3PO4 show that, these precursors are not a suitable for the preparation of adsorbents by these two methods. Nevertheless, chemical activation by alkaline hydroxides can be a suitable method to develop porosity and surface areas higher than 1600 m2g-1 can be obtained from both sewage sludge precursors (SB, SL). An increase in the hydroxide: precursor ratio leads to an enhancement of the adsorption capacity of the adsorbents. The resultant materials were tested as adsorbents/catalyst for H2S abatement. The results shown that we are been able to obtain adsorbents from sludge-based materials with high surface areas but with relatively low adsorption capacities as a consequence of its acidic nature. NaOH was added to the adsorption bed to counteract the acidic nature of these materials. The x/M values obtained are higher than 450 mgg-1. In addition, some of these materials were used for NH3 removal being the results obtained comparable to those for commercial activated carbons x/M values, tested under similar experimental conditions. These "new" activated materials can be used as adsorbents for many environmental applications such as VOC, Hg removal, etc.

Chemical activation

Physical activation

Activació física

Activació química

Activación química

NH3

Activación física

H2S

Depuración de aguas residuales

Wastewater treatment

Depuració d'aigües residuals

Catalizadores

Cataliysts

Catalitzadors

Lodos de depuradora

Sewage sludge

Fangs residuals

Adsorption

Adsorción

Adsorció

Odor control

Control de olores

Control d'olors

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66

Procesos secuenciales de adsorción/oxidación con H2O2 para la eliminación de compuestos orgánicos volátiles

Anfruns Bagaria, Alba

25 November 2011

Volatile Organic Compounds (VOCs) are one of the main groups of odour causing compounds in Waste Water Treatment Plants (WWTP). Adsorption technology is already established, in recent years the interest for the optimization of the costs associated with this technique has grown significantly. In particular, there are different options, from the use of low cost adsorbents, to reducing costs associated with carbon regeneration process. In this thesis, the adsorption of the three VOCs on sewage sludge based adsorbents was studied. It was proved that adsorbents obtained by chemical activation of sewage sludge with alkaline hydroxides are comparable to commercial activated carbons (ACs). Likewise, the adsorption of multicomponent gaseous streams was also studied. Related to the ACs regeneration, it was proposed a regeneration treatment of VOC saturated ACs with H2O2 based on advanced oxidation processes (AOP). The influence of the surface chemistry of ACs in this regeneration process was also studied. / Los compuestos orgánicos volátiles (COVs) son unos de los principales compuestos causantes de olores en las emisiones de EDARs. La adsorción es una técnica ampliamente utilizada para la eliminación de COVs en corrientes gaseosas y en los últimos tiempos ha crecido significativamente el interés para la optimización de los costes relacionados con esta técnica. En esta tesis se estudió el proceso de adsorción tres COVs en adsorbentes preparados a partir de lodos de EDAR, comprobando que adsorbentes obtenidos mediante activación química de lodos de depuradora son comparables a carbones activados comerciales (CAs). También se estudió la adsorción de corrientes multicomponente de COVs. En referencia a la regeneración del carbón activado, se propuso un tratamiento de regeneración con H2O2 de CAs saturados con COVs basado en los procesos avanzados de oxidación. Asimismo se estudió la influencia de la química superficial de los CAs en el proceso de regeneración con H2O2.

Depuración de aguas residuales

Wastewater treatment

Depuració d'aigües residuals

Compuestos orgánicos volátiles

Volatile organic compounds

Compostos orgànics volàtils

VOCS

COVS

Adsorción

Adsorption

Adsorció

Oxidación

Oxidation

Oxidació

Lodos de depuradora

Sewage sludge

Fangs residuals

EDAR

WWTP

Wastewater treatment plants

Regeneración

Regeneration

Regeneració

Peróxido de hidrógeno

Hydrogen peroxide

Peròxid d'hidrògen

H2O2

504

628