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Author	Campos, J.L.; del Rio, A.V.; Pedrouso, A.; Raux, P.; Giustinianovich, E.A.; Mosquera-Corral, A.
Title	Granular biomass floatation: A simple kinetic/stoichiometric explanation			Type
Year	2017	Publication	Chemical Engineering Journal	Abbreviated Journal	Chem. Eng. J.
Volume	311	Issue		Pages	63-71
Keywords	Anaerobic; Anammox; Denitrification; Granule; Methane; Nitrogen
Abstract	Floatation events are commonly observed in anammox, denitrifying and anaerobic granular systems mostly subjected to overloading conditions. Although several operational strategies have been proposed to avoid floatation of granular biomass, until now, there is no consensus about the conditions responsible for this phenomenon. In the present study, a simple explanation based on kinetic and stoichiometric principles defining the aforementioned processes is provided. The operational zones corresponding to evaluated parameters where risk of floatation exists are defined as a function of substrate concentration in the bulk liquid and the radius of the granule. Moreover, the possible control of biomass floatation by changing the operating temperature was analyzed. Defined operational zones and profiles fit data reported in literature for granular biomass floatation events. From the study the most influencing parameter on floatation occurrence has been identified as the substrate concentration in the bulk media. (C) 2016 Elsevier B.V. All rights reserved.
Address	[Campos, J. L.; Raux, P.] Univ Adolfo Ibanez, Fac Ingn & Ciencias, Avda Padre Hurtado 750, Vina Del Mar, Chile, Email: jluis.campos@uai.cl
Corporate Author				Thesis
Publisher	Elsevier Science Sa	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1385-8947	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000392768200008			Approved
Call Number	UAI @ eduardo.moreno @			Serial	697
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Author	del Rio, A.V.; Buys, B.; Campos, J.L.; Mendez, R.; Mosquera-Corral, A.
Title	Optimizing upflow velocity and calcium precipitation in denitrifying granular systems			Type
Year	2015	Publication	Process Biochemistry	Abbreviated Journal	Process Biochem.
Volume	50	Issue	10	Pages	1656-1661
Keywords	Calcium; Denitrification; Granule; Upflow velocity
Abstract	The denitrification process was studied in two granular biomass denitrifying reactors (USB1 and USB2). In USB1 large quantities of biomass were accumulated (9.5 gVSS L-1) allowing for the treatment of high nitrogen loads (3.5 g NO3--N L-1 d(-1)). As the biomass granulation process is not immediate the effects of different upflow velocities (0.12-5.5 m h(-1)) and calcium contents (5-200 mg Ca2+ L-1) were studied in order to speed up the process. Obtained results indicate that the optimum values for these parameters, which allow for the stable operation of USB1, are of 0.19 m h(-1) and 60 mg Ca2+ L-1. Then these optimum conditions were applied to USB2 where the effects of concentrations from 335 to 1000 mg NO3--N L-1 were tested. In these conditions nitrate concentrations of 1000 mg NO3--N L-1 are required for denitrifying granular biomass formation. Summarizing denitrifying granules can be formed at low upflow velocities and in hard or extremely hard water composition conditions if sufficient high nitrogen loads are treated. (C) 2015 Elsevier Ltd. All rights reserved.
Address	[Val del Rio, A.; Buys, B.; Campos, J. L.; Mendez, R.; Mosquera-Corral, A.] Univ Santiago de Compostela, Inst Technol, Dept Chem Engn, Santiago De Compostela 15782, Galicia, Spain, Email: mangeles.val@usc.es;
Corporate Author				Thesis
Publisher	Elsevier Sci Ltd	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1359-5113	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000361775400022			Approved
Call Number	UAI @ eduardo.moreno @			Serial	526
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Author	del Rio, A.V.; Campos, J.L.; Da Silva, C.; Pedrouso, A.; Mosquera-Corral, A.
Title	Determination of the intrinsic kinetic parameters of ammonia-oxidizing and nitrite-oxidizing bacteria in granular and flocculent sludge			Type
Year	2019	Publication	Separation And Purification Technology	Abbreviated Journal	Sep. Purif. Technol.
Volume	213	Issue		Pages	571-577
Keywords	Ammonia oxidizing bacteria; Flocs; Granules; Kinetics; Monod; Nitrite oxidizing bacteria
Abstract	The different oxygen affinities of ammonia-oxidizing (AOB) and nitrite-oxidizing bacteria (NOB) are often used to define the operational strategy to achieve partial nitritation (PN) required before the anammox (AMX) process. For this purpose, apparent kinetic parameters are mainly used in the case of granular sludge, which can lead to errors when defining the operational conditions to obtain only nitritation (avoiding nitratation). In the present study, a mathematical methodology is proposed to determine the intrinsic kinetic parameters of AOB and NOB in granular sludge based on data obtained by respirometric assays. Additionally, the oxygen affinity constant (K-O2) and maximum specific rate (r(max)) of flocculent and granular sludge sample, produced under mainstream and sidestream conditions were determined at various temperatures (15, 20 and 30 degrees C). The results show that for granules, the intrinsic K-O2 and r(max) values were lower and higher, respectively, than the apparent values. Furthermore, the K-O2 values for flocs and granules at all of the tested temperatures were lower for NOB than for AOB. The values obtained for the kinetic parameters indicated that it is impossible to maintain partial nitritation by only controlling the dissolved oxygen concentration.
Address	[del Rio, Angeles Val; Pedrouso, Alba; Mosquera-Corral, Anuska] Univ Santiago de Compostela, Dept Chem Engn, Sch Engn, E-15705 Santiago De Compostela, Spain, Email: mangeles.val@usc.es;
Corporate Author				Thesis
Publisher	Elsevier Science Bv	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1383-5866	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000457657200054			Approved
Call Number	UAI @ eduardo.moreno @			Serial	977
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Author	del Rio, A.V.; da Silva, T.; Martins, T.H.; Foresti, E.; Campos, J.L.; Mendez, R.; Mosquera-Corral, A.
Title	Partial Nitritation-Anammox Granules: Short-Term Inhibitory Effects of Seven Metals on Anammox Activity			Type
Year	2017	Publication	Water Air And Soil Pollution	Abbreviated Journal	Water Air Soil Pollut.
Volume	228	Issue	11	Pages	9 pp
Keywords	Ammonia oxidizing bacteria; Anammox; Granules; IC50; Nitrogen removal
Abstract	The inhibitory effect of seven different metals on the specific anammox activity of granular biomass, collected from a single stage partial nitritation/anammox reactor, was evaluated. The concentration of each metal that led to a 50% inhibition concentration (IC50) was 19.3 mg Cu+2/L, 26.9 mg Cr+2/L, 45.6 mg Pb+2/L, 59.1 mg Zn+2/L, 69.2 mg Ni+2/L, 174.6 mg Cd+2/L, and 175.8 mg Mn+2/L. In experiments performed with granules mechanically disintegrated (flocculent-like sludge), the IC50 for Cd+2 corresponded to a concentration of 93.1 mg Cd+2/L. These results indicate that the granular structure might act as a physical barrier to protect anammox bacteria from toxics. Furthermore, the presence of an external layer of ammonia oxidizing bacteria seems to mitigate the inhibitory effect of the metals, as the values of IC50 obtained in this study for anammox activity were higher than those previously reported for anammox granules. Additionally, the results obtained confirmed that copper is one of the most inhibitory metals for anammox activity and revealed that chromium, scarcely studied yet, has a similar potential inhibitory effect.
Address	[del Rio, Angeles Val; Mendez, Ramon; Mosquera-Corral, Anuska] Univ Santiago de Compostela, Inst Technol, Dept Chem Engn, E-15782 Santiago De Compostela, Spain, Email: mangeles.val@usc.es
Corporate Author				Thesis
Publisher	Springer	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0049-6979	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000415958200002			Approved
Call Number	UAI @ eduardo.moreno @			Serial	790
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Author	del Rio, A.V.; Pichel, A.; Fernandez-Gonzalez, N.; Pedrouso, A.; Fra-Vazquez, A.; Morales, N.; Mendez, R.; Campos, J.L.; Mosquera-Corral, A.
Title	Performance and microbial features of the partial nitritation-anammox process treating fish canning wastewater with variable salt concentrations			Type
Year	2018	Publication	Journal Of Environmental Management	Abbreviated Journal	J. Environ. Manage.
Volume	208	Issue		Pages	112-121
Keywords	Autotrophic; Denitrification; Fish canning; Granule; Nitrogen
Abstract	The partial nitritation-anammox (PN-AMX) process applied to wastewaters with high NaCl concentration was studied until now using simulated media, without considering the effect of organic matter concentration and the shift in microbial populations. This research work presents results on the application of this process to the treatment of saline industrial wastewater. Obtained results indicated that the PN-AMX process has the capability to recover its initial activity after a sudden/acute salt inhibition event (up to 16 g NaCl/L). With a progressive salt concentration increase for 150 days, the PN-AMX process was able to remove the 80% of the nitrogen at 7-9 g NaCl/L. The microbiological data indicated that NaCl and ammonia concentrations and temperature are important factors shaping PN-AMX communities. Thus, the NOB abundance (Nitrospira) decreases with the increase of the salt concentration, while heterotrophic denitrifiers are able to outcompete anammox aftet a peak of organic matter in the feeding. (C) 2017 Elsevier Ltd. All rights reserved.
Address	[Val del Rio, Angeles; Pichel, Andres; Fernandez-Gonzalez, Nuria; Pedrouso, Alba; Fra-Vazquez, Andrea; Mendez, Ramon; Mosquera-Corral, Anuska] Univ Santiago de Compostela, Sch Engn, Dept Chem Engn, E-15705 Santiago De Compostela, Spain, Email: mangeles.val@usc.es;
Corporate Author				Thesis
Publisher	Academic Press Ltd- Elsevier Science Ltd	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0301-4797	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000424074000011			Approved
Call Number	UAI @ eduardo.moreno @			Serial	818
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Author	Jara-Munoz, P.; Guzman-Fierro, V.; Arriagada, C.; Campos, V.; Campos, J.L.; Gallardo-Rodriguez, J.J.; Fernandez, K.; Roeckel, M.
Title	Low oxygen start-up of partial nitrification-anammox process: mechanical or gas agitation?			Type
Year	2019	Publication	Journal Of Chemical Technology And Biotechnology	Abbreviated Journal	J. Chem. Technol. Biotechnol.
Volume	94	Issue	2	Pages	475-483
Keywords	mechanical agitation; partial nitrification anammox; dissolved oxygen; gas agitation; granule
Abstract	BACKGROUND Partial nitrification-anammox (PN-A) is a widely recognized technology to remove nitrogen from different types of wastewater. Low oxygen concentration is the most used strategy for PN-A start-up, but stability problems arise during the operation; thus, in the present study the effects of the type of agitation, oxygenation and shear stress on the sensitivity, energy consumption and performance were evaluated. Recognition of these parameters allows considered choice of the design of an industrial process for nitrogen abatement. RESULTS A mechanically agitated reactor (MAR) was compared to a stable, long-term operation period bubble column reactor (BCR), both started under low dissolved oxygen concentration conditions. MAR microbial assays confirmed the destruction of the nitrifying layer and an imbalance of the entire process when the oxygen to nitrogen loading ratio (O-2:N) decreased by 25%. The granule sedimentation rate and specific anammox activity were 17% and 87% higher (respectively) in BCR. Economic analysis determined that the cost of aeration for the MAR and for the BCR were 23.8% and 1% of the total PN-A energy consumption, respectively. CONCLUSIONS The BCR showed better results than the MAR. This study highlights the importance of type of agitation, oxygenation and shear stress for industrial-scale PN-A designs. (c) 2018 Society of Chemical Industry
Address	[Jara-Munoz, Pamela; Guzman-Fierro, Victor; Arriagada, Constanza; Jose Gallardo-Rodriguez, Juan; Fernandez, Katherina; Roeckel, Marlene] Univ Concepcion, Dept Chem Engn, Fac Engn, Concepcion, Chile, Email: mroeckel@udec.cl
Corporate Author				Thesis
Publisher	Wiley	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0268-2575	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000455262100014			Approved
Call Number	UAI @ eduardo.moreno @			Serial	972
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Author	Jungles, M.K.; Val del Rio, A.; Mosquera-Corral, A.; Campos, J.L.; Mendez, R.; Costa, R.H.R.
Title	Effects of Inoculum Type and Aeration Flowrate on the Performance of Aerobic Granular SBRs			Type
Year	2017	Publication	Processes	Abbreviated Journal	Processes
Volume	5	Issue	3	Pages	10 pp
Keywords	aeration flowrate; aerobic granules; inoculum; sequencing batch reactor; wastewater
Abstract	Aerobic granular sequencing batch reactors (SBRs) are usually inoculated with activated sludge which implies sometimes long start-up periods and high solids concentrations in the effluent due to the initial wash-out of the inoculum. In this work, the use of aerobic mature granules as inoculum in order to improve the start-up period was tested, but no clear differences were observed compared to a reactor inoculated with activated sludge. The effect of the aeration rate on both physical properties of granules and reactor performance was also studied in a stable aerobic granular SBR. The increase of the aeration flow rate caused the decrease of the average diameter of the granules. This fact enhanced the COD and ammonia consumption rates due to the increase of the DO level and the aerobic fraction of the biomass. However, it provoked a loss of the nitrogen removal efficiency due to the worsening of the denitrification capacity as a consequence of a higher aerobic fraction.
Address	[Jungles, Mariele K.; Costa, Rejane H. R.] Fed Univ Santa Catarina UFSC, CTC, ENS, Dept Sanit & Environm Engn, BR-88010970 Florianopolis, SC, Brazil, Email: marielejungles@hotmail.com;
Corporate Author				Thesis
Publisher	Mdpi	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	2227-9717	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000412051700009			Approved
Call Number	UAI @ eduardo.moreno @			Serial	944
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Author	Morales, N.; del Rio, A.V.; Vazquez-Padin, J.R.; Gutierrez, R.; Fernandez-Gonzalez, R.; Icaram, P.; Rogalla, F.; Campos, J.L.; Mendez, R.; Mosquera-Corral, A.
Title	Influence of dissolved oxygen concentration on the start-up of the anammox-based process: ELAN (R)			Type
Year	2015	Publication	Water Science And Technology	Abbreviated Journal	Water Sci. Technol.
Volume	72	Issue	4	Pages	520-527
Keywords	anammox; autotrophic nitrogen removal; dissolved oxygen; granule; oxygen microprofiles
Abstract	The anammox-based process ELAN (R) was started-up in two different sequencing batch reactor (SBR) pilot plant reactors treating municipal anaerobic digester supernatant. The main difference in the operation of both reactors was the dissolved oxygen (DO) concentration in the bulk liquid. SBR-1 was started at a DO value of 0.4 mg O-2/L whereas SBR-2 was started at DO values of 3.0 mg O-2/L. Despite both reactors working at a nitrogen removal rate of around 0.6 g N/(L d), in SBR-1, granules represented only a small fraction of the total biomass and reached a diameter of 1.1 mm after 7 months of operation, while in SBR-2 the biomass was mainly composed of granules with an average diameter of 3.2 mm after the same operational period. Oxygen microelectrode profiling revealed that granules from SBR-2 where only fully penetrated by oxygen with DO concentrations of 8 mg O2/L while granules from SBR-1 were already oxygen penetrated at DO concentrations of 1 mg O2/L. In this way granules from SBR-2 performed better due to the thick layer of ammonia oxidizing bacteria, which accounted for up to 20% of all the microbial populations, which protected the anammox bacteria from non-suitable liquid media conditions.
Address	[Morales, N.; Vazquez-Padin, J. R.; Gutierrez, R.; Fernandez-Gonzalez, R.; Icaram, P.; Rogalla, F.] Guillarei WWTP, FCC Aqualia, E-36720 Tui, Spain, Email: nicolas.morales.pereira@fcc.es
Corporate Author				Thesis
Publisher	Iwa Publishing	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0273-1223	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000359387200003			Approved
Call Number	UAI @ eduardo.moreno @			Serial	518
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Author	Morales, N.; del Rio, A.V.; Vazquez-Padin, J.R.; Mendez, R.; Campos, J.L.; Mosquera-Corral, A.
Title	The granular biomass properties and the acclimation period affect the partial nitritation/anammox process stability at a low temperature and ammonium concentration			Type
Year	2016	Publication	Process Biochemistry	Abbreviated Journal	Process Biochem.
Volume	51	Issue	12	Pages	2134-2142
Keywords	Anammox; AOB; Granules; Nitrogen; NOB; Partial nitritation
Abstract	Extensive research on the anammox-based processes under mainstream conditions is currently in progress. Most studies have used a long acclimation period for the partial nitritation-anammox (PN-An) sludge at a low temperature and ammonium concentration. However, in this study, the results demonstrated that PN-An granular biomass produced under sidestream conditions (30 degrees C and 1000 mg NH4+-N/L) can operate at 15 degrees C and 50 mg NH4+-N/L without acclimation. The nitrogen removal efficiency was 70% and was stable for 60 days. The long-termoperation of the system with progressive adaptation provided important information for process optimization. Control of the dissolved oxygen (DO) concentration was crucial to maintain the balance between ammonia oxidizing bacteria (AOB) and anammox bacteria activities. A calculation of the oxygen penetration depth inside the granules is proposed to estimate an adequate DO level, which allows for the definition of the aerobic and anoxic zones that depend on the temperature, the size distribution and the granule density. However, the development of NOB was difficult to avoid with DO control alone. The selective washing-out of the floccular biomass, which contains mainly NOB, is proposed, leaving the granular fraction with the AOB and anammox bacteria in the system. (C) 2016 Published by Elsevier Ltd.
Address	[Morales, Nicolas; del Rio, Angeles Val; Mendez, Ramon; Campos, Jose L.; Mosquera-Corral, Anuska] Univ Santiago de Compostela, Inst Technol, Dept Chem Engn, E-15705 Santiago De Compostela, Spain, Email: nicolas.morales@usc.es;
Corporate Author				Thesis
Publisher	Elsevier Sci Ltd	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1359-5113	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000390733500029			Approved
Call Number	UAI @ eduardo.moreno @			Serial	685
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Author	Pedrouso, A.; del Rio, A.V.; Campos, J.L.; Mendez, R.; Mosquera-Corral, A.
Title	Biomass aggregation influences NaN3 short-term effects on anammox bacteria activity			Type
Year	2017	Publication	Water Science And Technology	Abbreviated Journal	Water Sci. Technol.
Volume	75	Issue	5	Pages	1007-1013
Keywords	anammox; granules; inhibition; NOB; partial nitritation; sodium azide
Abstract	The main bottleneck to maintain the long-term stability of the partial nitritation-anammox processes, especially those operated at low temperatures and nitrogen concentrations, is the undesirable development of nitrite oxidizing bacteria (NOB). When this occurs, the punctual addition of compounds with the capacity to specifically inhibit NOB without affecting the process efficiency might be of interest. Sodium azide (NaN3) is an already known NOB inhibitor which at low concentrations does not significantly affect the ammonia oxidizing bacteria (AOB) activity. However, studies about its influence on anammox bacteria are unavailable. For this reason, the objective of the present study was to evaluate the effect of NaN3 on the anammox activity. Three different types of anammox biomass were used: granular biomass comprising AOB and anammox bacteria (G1), anammox enriched granules (G2) and previous anammox granules disaggregated (F1). No inhibitory effect of NaN3 was measured on G1 sludge. However, the anammox activity decreased in the case of G2 and F1. Granular biomass activity was less affected (IC50 90 mg/L, G2) than flocculent one (IC50 5 mg/L, F1). Summing up, not only does the granular structure protect the anammox bacteria from the NaN3 inhibitory effect, but also the AOB act as a barrier decreasing the inhibition.
Address	[Pedrouso, A.; Val del Rio, A.; Mendez, R.; Mosquera-Corral, A.] Univ Santiago de Compostela, Sch Engn, Dept Chem Engn, E-15705 Santiago De Compostela, Spain, Email: alba.pedrouso@usc.es
Corporate Author				Thesis
Publisher	Iwa Publishing	Place of Publication		Editor
Language	English	Summary Language		Original Title
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0273-1223	ISBN		Medium
Area		Expedition		Conference
Notes	WOS:000395822800001			Approved
Call Number	UAI @ eduardo.moreno @			Serial	712
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