Avaliação dos processos de nitrificação e desnitrificação das águas residuárias de uma indústria química / Evaluation of nitrification-denitrification processes of wastewater of chemical industry

Sassim, Márcio Nemer Machado

24 May 2001

Um sistema de tratamento constituído de um reator anaeróbio de mistura completa e um reator anaeróbio compartimentado (ABR) foi operado durante 140 dias para estudar os efeitos do pré-tratamento das águas residuárias de uma indústria química, por carvão ativado em pó (CAP), e suas implicações nos processos de nitrificação e desnitrificação. Utilizou-se, no pré-tratamento do resíduo, duas concentrações de carvão ativado em pó. Para aplicação de 10 mg/l de CAP a remoção de DQO foi de 60% e a de NTK foi de 50%. Nesta fase, os processos de remoção de nitrogênio foram plenamente viabilizados. Para 5 mg/l de CAP a remoção de DQO foi de 44% e a remoção de NTK 46%, neste período se observou inibição por metais pesados e acúmulo de nitrito no sistema. / A treatment system composed of both an aerobic complete-mix reactor and a anaerobic baftled reactor (ABR) was operated for 140 days to study the effects of the treatment of wastewater chemical industry by powdered activate carbon (PAC) and its implications in nitrification - denitrification processes. In the residue preliminary treatment, two concentrations of PAC were used. For the application of 10 mg/l of CAP the removal of COD was 60% and the removal of TKN was 50%. In this phase, the processes of nitrogen removal were possible to be completely carried out. For 5 mg/l of CAP, the removal of COD was 44% and the removal of TKN 46%. In this period, the inhibition by heavy metaIs and nitrite accumulation in the system was observed.

ABR

Anaerobic baffled reactor (ABR)

Carvão ativado em pó

Denitrification

Desnitrificação

Efluente industrial

Industrial wastewater

Nitrificação

Nitrification

Powdered activated carbon (PAC)

Pré-tratamento

Avaliação do desempenho de um reator anaeróbico compartimentado no tratamento de soro de queijo

Garcia, Fernanda Roberta Carnielo [UNESP]

26 February 2009

Made available in DSpace on 2014-06-11T19:23:26Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-02-26Bitstream added on 2014-06-13T18:50:32Z : No. of bitstreams: 1 garcia_frc_me_sjrp.pdf: 955704 bytes, checksum: 9806aa186a96e3aa2085f64f368e2358 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Este trabalho teve por objetivo avaliar o desempenho de um reator anaeróbio compartimentado no tratamento de soro de queijo. Para tanto, foi utilizado um reator de 4,9 L com cinco compartimentos, inoculados com lodo biológico granulado obtido de uma indústria da região. O reator foi operado com variados tempos de residência hidráulicos (1 a 4 dias) e concentrações de soro de queijo que variaram de 2500 a 11000 DQO mg L-1. Foram efetuadas as análises de Acidez e Alcalinidade, Turbidez, pH, Demanda Química de Oxigênio (DQO), Sólidos Voláteis (SV) e Sólidos Totais (ST). A partir dos resultados obtidos, e devido às características do reator, foi possível compreender a dinâmica do processo anaeróbio, nas fases acidogênica e metanogênica, tanto na geração / desaparecimento da alcalinidade / acidez, como na redução da carga orgânica. Na primeira etapa da pesquisa, o soro de queijo da alimentação do reator foi diluído a uma DQO de 2500 mg L-1, e o reator mantido em quatro tempos de residência hidráulicos (TRH), 4, 3, 2 e 1 dia. Com TRH 4 dias, a redução da DQO foi de 96,3%. Com TRH 3 dias, o reator apresentou um problema de queda no pH e, devido a isso, foi dividido em duas partes: a primeira na qual o reator apresentou uma redução de 97,3% e a outra na qual a redução foi de 89,4%. Com TRH 2 dias, a redução de DQO foi de 89,5%; e com TRH 1 dia a redução foi de 50,5%. A segunda etapa da pesquisa contou com um aumento da concentração de soro de queijo na alimentação do reator, DQO 6000 mg L-1, e TRHs de 3, 2 e 1 dia. Com TRH 3 dias, a redução de DQO foi 80,7%, com TRH 2 dias 74,0% e com TRH 1 dia, a redução foi 33,5%. Na terceira etapa da pesquisa, a concentração do soro foi elevada para uma DQO de 11000 mg L-1, sendo testado o TRH 3 dias e como a eficiência do reator na redução da DQO apresentou um baixo valor, 47,1%, nenhum outro TRH foi testado. / This study aimed to evaluate the efficiency of an anaerobic baffled reactor treating cheese whey. For this, it was used a five-compartment reactor, 4.9 L, inoculated with granular sludge obtained from a biological industry in the region. The reactor was operated at different hydraulic residence times (HRT) from 1 to 4 days and the concentration of cheese whey was of 2500 to 11000 mg COD L-1. The procedures included analyses of acidity and alkalinity, turbidity, pH, chemical oxygen demand (COD), volatile solids (VS) and total solids (TS).From the results shown and due to the characteristics of the reactor, it was possible to understand the dynamics of the anaerobic process at the acidogenic and methanogenic stages both in the generation / disappearance of alkalinity / acidity and in reducing the organic load. In the first stage of research, the cheese whey used for feeding the reactor was diluted to a 2500 mg L-1 COD. The reactor was maintained at four hydraulic residence times (HRT) of 4, 3, 2 and 1 days. At a HRT of 4 days, the reduction in the COD was 96.3%. At a HRT of 3 days, the reactor had a problem - a decrease in pH and because of that, it was divided into two parts: in the first part the reactor showed a reduction of 97.3% and in the second one, the reduction was of 89.4%. At a HRT of 2 days, the reduction in the COD was of 89.5%; and at a HRT of 1 day, the reduction was of 50.5%. During the second stage of the survey, there was an increase of the concentration of cheese whey while feeding the reactor, COD 6000 mg L-1, and at a HRT of 3, 2 and 1 day. At a HRT of 3 days, the reduction in the COD was of 80.7%; at a HRT of 2 days, it was 74.0% and at a HRT of 1 day, the reduction was of 33.5%. In the third stage of the study, the concentration of whey was increased to a COD of 11000 mg L-1, being tested at a HRT of 3 days and since the efficiency of the reactor in the COD reduction showed a low value, 47.1%, no other HRT was tested.

Alimentos - Microbiologia

Microbiologia industrial

Tecnologia de alimentos

Soro do leite - Indústria

Resíduos industriais

Soro de queijo - Indústria

Reatores anaeróbiocs

Anaerobic digestion

Baffled reactor

Cheese whey

Tratamento de efluente de laticínio em reator anaeróbio compartimentado / Anaerobic treatment of dairy wastewater in an anaerobic baffled reactor

Carla Cristina (Lucas Kyem) Araújo dos Santos

13 June 2016

Os efluentes com elevadas concentrações de lipídios, apesar de demonstrarem elevado potencial para produção de metano podem causar inibição da atividade do consórcio anaeróbio, impossibilitando a produção de biogás. O presente trabalho teve como objetivo o estudo de um reator anaeróbio compartimentado (ABR) com cinco compartimentos tratando efluente simulado de laticínio. Para tanto, a biomassa, foi adaptada por 51 dias e em seguida submetida a tempos de detenção de hidráulica (TDH) de 72h, 24h e 12h, tendo o monitoramento se estendido por 340 dias. Enquanto operando com TDH de 24, o sistema foi submetido a choques hidráulicos e de carga orgânica através da diminuição do TDH para 12 h. O reator absorveu bem a carga, e em 36 horas recuperou os valores prévios de eficiência. Quando operou permanentemente com 12 horas, todavia, problemas de flotação de biomassa e obstruções foram constantes. As eficiências de remoção de matéria orgânica alcançadas para cada condição aplicada foram de 92 ± 3,0; 91 ± 1,8 e 90 ± 2,4% para os TDH de 72h, 24h e 12h, respectivamente. Esses valores foram estatisticamente semelhantes (Anova e L-Fisher). A percentagem de metano no biogás aumentou com a redução de TDH, tendo sido 41 ± 23, 53 ± 27 e 62 ± 12% quando os TDH foram 72, 24 e 12 horas, respectivamente. A produção média de alcalinidade foi de 320±25 mg.CaCO3.L-1, sendo esta observada desde o início da operação. A relação média entre alcalinidade intermediária e parcial foi de 0.1±0.06 em amostras coletadas na saída do sistema. Embora apresentando problemas de obstrução com o menor TDH, o ABR foi eficiente, robusto e confiável ao tratar efluente de laticínios, tendo produzido um efluente líquido de alta qualidade e biogás rico em metano. / Effluents with high concentrations of lipids, although demonstrating high potential for methane production represents potential inhibition of the anaerobic consortium activity, depleting the production of biogas. This project was carried out monitoring an anaerobic hybrid baffled reactor with five compartments (ABR) treating simulated dairy wastewater. The biomass, was adapted for 51 days and then subjected to hydraulic retention times (HDT) of 72h, 24h and 12h, resulting in a monitoring period of 340 days. While operating with 24h of HRT, the system was subjected to three organic and hydraulic shock loads, when its HDT was decreased to 12 h. The reactor absorbed the shock within 36 hours, achieving similar efficiencies to the previous condition. Nevertheless, although presenting high organic matter efficiencies, when permanently operating with HDT of 12 h, clogging problems due to biomass flotation were constant. The organic matter removal efficiencies for each operational condition were 92 ± 3%, 91 ± 1.8%, 90 ± 2,4%. Those values were statistically similar. The methane percentage in the biogas increased with the HDT reduction, being 41 ± 23, 53 ± 27, and 62 ± 12% when the HDT were 72, 24 and 12 hours. Alkalinity production was observed since the beginning of operation. The mean relation between intermediate and partial alkalinity was 0.1±0.006 in samples collected in the system output. Although presenting clogging problems with the smallest HDT, the ABR was efficient, robust and reliable when treating dairy effluents, producing a high quality liquid effluent and a methane rich biogas.

ABR

Degradação anaeróbia de lipídeos

Efluente de laticínios

Reator anaeróbio compartimentado

Tratamento anaeróbio

Aanerobic treatment

Anaerobic baffled reactor

Dairy effluents

Lipids anaerobic degradation

Avaliação dos processos de nitrificação e desnitrificação das águas residuárias de uma indústria química / Evaluation of nitrification-denitrification processes of wastewater of chemical industry

Márcio Nemer Machado Sassim

24 May 2001

Um sistema de tratamento constituído de um reator anaeróbio de mistura completa e um reator anaeróbio compartimentado (ABR) foi operado durante 140 dias para estudar os efeitos do pré-tratamento das águas residuárias de uma indústria química, por carvão ativado em pó (CAP), e suas implicações nos processos de nitrificação e desnitrificação. Utilizou-se, no pré-tratamento do resíduo, duas concentrações de carvão ativado em pó. Para aplicação de 10 mg/l de CAP a remoção de DQO foi de 60% e a de NTK foi de 50%. Nesta fase, os processos de remoção de nitrogênio foram plenamente viabilizados. Para 5 mg/l de CAP a remoção de DQO foi de 44% e a remoção de NTK 46%, neste período se observou inibição por metais pesados e acúmulo de nitrito no sistema. / A treatment system composed of both an aerobic complete-mix reactor and a anaerobic baftled reactor (ABR) was operated for 140 days to study the effects of the treatment of wastewater chemical industry by powdered activate carbon (PAC) and its implications in nitrification - denitrification processes. In the residue preliminary treatment, two concentrations of PAC were used. For the application of 10 mg/l of CAP the removal of COD was 60% and the removal of TKN was 50%. In this phase, the processes of nitrogen removal were possible to be completely carried out. For 5 mg/l of CAP, the removal of COD was 44% and the removal of TKN 46%. In this period, the inhibition by heavy metaIs and nitrite accumulation in the system was observed.

ABR

Carvão ativado em pó

Desnitrificação

Efluente industrial

Nitrificação

Pré-tratamento

Anaerobic baffled reactor (ABR)

Denitrification

Industrial wastewater

Nitrification

Powdered activated carbon (PAC)

Efeitos da recirculação em reatores anaeróbios compartimentados no tratamento de vinhaça / Effects of recirculation in anaerobic baffled reactors in vinasses treatment

Guilherme Araujo Vuitik

27 July 2017

A digestão anaeróbia é uma potencial solução para a destinação dos grandes volumes de vinhaça gerada em biorrefinarias de cana-de-açúcar. A alta concentração de matéria orgânica presente na vinhaça é uma questão importante a ser considerada, uma vez que as populações microbianas anaeróbias, principalmente metanogênicas, são sensíveis a sobrecargas orgânicas. Uma série de configurações de reatores, bem como diferentes estratégias de partida e operação tem sido aplicadas ao tratamento de vinhaça, como a recirculação do efluente tratado, a qual é usualmente empregada para prevenir eventos de sobrecarga orgânica. O objetivo deste estudo foi determinar a influência da recirculação de efluentes em reatores anaeróbios compartimentados (RAC) tratando águas residuárias concentradas, uma vez que a literatura não é conclusiva sobre os efeitos da recirculação neste tipo de reator. Para atingir esse objetivo, foi utilizada uma abordagem dupla: experimental e modelagem matemática. Um RAC com 4 compartimentos em série em escala de bancada foi alimentado com vinhaça de cana-de-açúcar (DQO = 18,0 g/L) e monitorado durante 273 dias. Os parâmetros cinéticos e de transferência de massa do reator foram obtidos e utilizados para criar um modelo matemático para a conversão da matéria orgânica no software Matlab®. Tanto os dados operacionais como os parâmetros cinéticos mostraram que a elevada concentração de DQO fez com que o RAC não se comportasse como um sistema de duas fases, bem como a recirculação não resultasse em melhorias relevantes de desempenho. O modelo matemático concordou com os dados operacionais e mostrou que, em termos de capacidade de conversão, o uso de elevadas taxas de recirculação não é necessário para um adequado desempenho do RAC, uma vez que a cinética bioquímica observada não foi expressivamente limitada pela concentração de substrato. / Anaerobic digestion is a potential approach to handle the large volume of vinasse generated in sugarcane biorefineries. The high concentration of organic matter present in vinasse is an important issue to be considered, since anaerobic microbial populations, mainly methanogens, are sensitive to organic overloads. A serie of reactors configurations, as well as different startup and operating strategies, have been applied to the treatment of vinasse, so that the recirculation of the treated effluent is usually used to prevent organic overloading events. The aim of this study was to determine the influence of effluent recirculation in anaerobic baffled reactors (ABR) treating high concentrated wastewater, since literature is not conclusive about its effects. To achieve this aim an experimental and mathematical modeling dual approach was employed. A bench-scale ABR with four serial baffleds was fed with sugarcane vinasse (COD = 18,0 g/L) and monitored for 273 days. Kinetic and mass transfer parameters were obtained and used to create a mathematical model for the organic matter conversion in Matlab®. Both the operating data and the kinetic parameters showed that at high COD concentrations the ABR does not behave as a two-stage system, as well as recirculation did not result in relevant performance improvements. The mathematical model agreed with the operational data and showed that, in terms of conversion capacity, the use of high recirculation ratios is not necessary for suitable ABR performance, since the observed biochemical kinetics were not high limited by the concentration of substrate.

Inibição por processo de substrato

Modelagem matemática de reatores

Reator anaeróbio compartimentado

Recirculação

Vinhaça de cana-de-açúcar

Anaerobic baffled reactor

Reactor modelling

Recirculation

Substrate inhibition

Sugarcane vinasse

Möglichkeiten zur Behandlung saisonal anfallender Abwässer in ländlich strukturierten Gebieten durch Anpassung der Bemessungsgrundlagen und temporäre Aktivierung interner Reserven

Schalk, Thomas

13 November 2017

Vor dem Hintergrund saisonaler Einflussfaktoren stellen ländlich strukturierte Gebiete besondere Anforderungen an Bemessung und Betrieb von Kläranlagen. Tourismus bildet neben landwirtschaftlich bedingten Ernte- und Verarbeitungskampagnen den bedeutendsten Faktor für saisonale Belastungsschwankungen. Da der größte Teil der Fremdenverkehrseinrichtungen über weniger als 100 Übernachtungsplätze verfügt, besteht bei fehlendem Kanalanschluss ein entsprechender Bedarf an Klein- und Kleinen Kläranlagen zur Behandlung der anfallenden Abwässer. Die Bemessung von Kläranlagen der Größenklasse 1 wird bei fehlenden Messwerten auf Grundlage der im ATV-DVWK-A 198 (2003) als 85-%-Perzentil angegebenen einwohnerspezifischen Frachten durchgeführt. Abwasser aus einfachen Fremdenverkehrseinrichtungen wie Campingplätzen und Hütten weist im Vergleich zur üblichen kommunalen Abwasserzusammensetzung bezogen auf CSB und BSB5 höhere Anteile an Stickstoff- und Phosphorverbindungen auf. Die spezifischen Stickstofffrachten liegen i. M. bei 10 – 11 g/P/d, die spezifischen CSB-Frachten bei i. M. 52 – 68 g/P/d. Die tatsächlichen Frachten werden von der Ausstattung (Restaurant, Wäscherei, etc.) der jeweiligen Unterkunft beeinflusst und sind in der Bemessung gesondert zu berücksichtigen. Für die Behandlung saisonal anfallender Abwässer eignen sich Verfahren mit großem vorgeschaltetem Puffervolumen oder Anlagen mit großem internem Puffer, wie z. B. Bodenfilteranlagen. Anaerobe Vorbehandlungsanlagen wie Anaerobic Baffled Reactors (ABR) können bei entsprechenden Temperaturen zur Frachtentlastung nachgeschalteter aerober Stufen beitragen. Unter gemäßigten Klimabedingungen werden inklusive Sedimentationsprozessen in Vorklärbecken i. M. 50 % des zugeführten CSB eliminiert. Aufgrund der starken Temperaturabhängigkeit des CSB-Abbaus, der Dauer des Einfahrbetriebs, der Empfindlichkeit gegenüber zu hohem Schlammabzug und des nicht berechenbaren Feststoffabtriebs ist unter gemäßigten Klimabedingungen und ohne technische Weiterentwicklung des Verfahrens keine über den Wirkungsgrad von Absetzanlagen hinausgehende Eliminationsleistung bei der Bemessung kalkulierbar. Für saisonal belastete Bodenfilter stellt die Abminderung des Flächenbedarfs bzw. die Steigerung der CSB-Flächenbelastung analog zum nicht belasteten Zeitraum eine betriebssichere und wirtschaftliche Lösung dar, bei der die Einhaltung der Mindestanforderungen gewährleistet ist. Bei geforderter Nitrifikation ist aufgrund des hohen TKN-Konzentrationsniveaus im Abwasser aus Fremdenverkehrseinrichtungen ein Wirkungsgrad von > 95 % für die TKN-Elimination erforderlich. Im Abwasser enthaltene Hemmstoffe, insbesondere in Vorkläranlagen gebildetes Sulfid, können die Nitrifikation beeinträchtigen. Dabei werden Ammoniumoxidation und Nitritoxidation gehemmt. Charakteristisch sind hohe NH4-N- und NO2-N-Konzentrationen im Ablauf (Extremwerte bis zu 55 mg NO2-N/l). Während sich Nitritoxidierer über mehrere Jahre an dauerhaft hohe Sulfidkonzentrationen adaptieren können, wird die Ammoniumoxidation direkt über die Sulfidkonzentration beeinflusst. / In rural communities seasonal factors complicate design and operation of wastewater treatment plants. Tourism as well as agricultural harvesting and processing campaigns are the major causes for seasonal load variations. Due to the fact that accommodation capacities in rural tourism industry rarely exceed 100 beds small sewage treatment plants are acquired if a connection to a sewer system is not feasible. Small wastewater treatment plants can be designed using the population equivalents (PE). According to the German Water Association spreadsheet ATV-DVWK-A 198, PEs are defined as the 85-%-percentile input load. Wastewater of basic accommodations like camping sites and lodges contains higher levels of nitrogen and phosphorous compounds than 'standard' domestic wastewater. The mean specific nitrogen loads reach 10 – 11 g/guest/d, the mean specific COD-load 52 – 68 g/guest/d. The special amenities of vacation homes (restaurant, laundry) affect the real loads and have to be considered in dimensioning. Regarding the treatment of seasonal wastewater, processes with large upstream buffer or large internal buffer, such as constructed wetlands, are suitable. Furthermore, at moderate temperatures anaerobic pretreatment devices, like anaerobic baffled reactors (ABR), can reduce the input load to aerobic post treatment stages. An approximate COD elimination of 50 % can be expected by anaerobic degradation and sedimentation in the ABR in combination with upstream primary clarifiers at around 20 °C. Due to the strong temperature dependence, the long start-up-period, the sensitivity towards fail-desludging, the generation of immediate oxygen demand at low temperatures as well as unpredictable sludge overflow events, it does not seem justified to calculate higher design elimination efficiencies for ABRs than for sedimentation tanks. The design of subsurface vertical flow constructed wetlands with seasonally induced high loading periods are approved for the elimination of organic substances. This accepted assumption was confirmed for the plant under investigation operated at a mean COD-load of 20 g/m²/d, not exceeding the effluent control values for COD in six years. In contrast, oxidation of ammonia and nitrite were inhibited by high sulfide levels (mean sulfide concentration: 48 ± 26 mg/L). Nitrite accumulation reached its peak value at 55 mg NO2-N/L and decreased within 4 years below 1 mg/L due to the adaption of nitrite-oxidizing microorganisms.

Kleinkläranlagen

Kleine Kläranlagen

Tourismus

Campingplätze

Hütten

Einwohnerwert

Bemessungsfracht

Abwasservorbehandlung

anaerobe Abwasserbehandlung

Anaerobic Baffled Reactor (ABR)

Bodenfilter

Nitrifikation

Nitritbildung

Sulfidhemmung

small wastewater treatment plants

tourism

camping site

lodge

population equivalents

design load

anaerobic pretreatment

anaerobic baffled reactor (ABR)

wetlands

nitrification

nitrite acculumation

sulphide inhibition

ddc:550

rvk:AR 22580

rvk:ZI 6885

Möglichkeiten zur Behandlung saisonal anfallender Abwässer in ländlich strukturierten Gebieten durch Anpassung der Bemessungsgrundlagen und temporäre Aktivierung interner Reserven

Schalk, Thomas

05 July 2017

Vor dem Hintergrund saisonaler Einflussfaktoren stellen ländlich strukturierte Gebiete besondere Anforderungen an Bemessung und Betrieb von Kläranlagen. Tourismus bildet neben landwirtschaftlich bedingten Ernte- und Verarbeitungskampagnen den bedeutendsten Faktor für saisonale Belastungsschwankungen. Da der größte Teil der Fremdenverkehrseinrichtungen über weniger als 100 Übernachtungsplätze verfügt, besteht bei fehlendem Kanalanschluss ein entsprechender Bedarf an Klein- und Kleinen Kläranlagen zur Behandlung der anfallenden Abwässer. Die Bemessung von Kläranlagen der Größenklasse 1 wird bei fehlenden Messwerten auf Grundlage der im ATV-DVWK-A 198 (2003) als 85-%-Perzentil angegebenen einwohnerspezifischen Frachten durchgeführt. Abwasser aus einfachen Fremdenverkehrseinrichtungen wie Campingplätzen und Hütten weist im Vergleich zur üblichen kommunalen Abwasserzusammensetzung bezogen auf CSB und BSB5 höhere Anteile an Stickstoff- und Phosphorverbindungen auf. Die spezifischen Stickstofffrachten liegen i. M. bei 10 – 11 g/P/d, die spezifischen CSB-Frachten bei i. M. 52 – 68 g/P/d. Die tatsächlichen Frachten werden von der Ausstattung (Restaurant, Wäscherei, etc.) der jeweiligen Unterkunft beeinflusst und sind in der Bemessung gesondert zu berücksichtigen. Für die Behandlung saisonal anfallender Abwässer eignen sich Verfahren mit großem vorgeschaltetem Puffervolumen oder Anlagen mit großem internem Puffer, wie z. B. Bodenfilteranlagen. Anaerobe Vorbehandlungsanlagen wie Anaerobic Baffled Reactors (ABR) können bei entsprechenden Temperaturen zur Frachtentlastung nachgeschalteter aerober Stufen beitragen. Unter gemäßigten Klimabedingungen werden inklusive Sedimentationsprozessen in Vorklärbecken i. M. 50 % des zugeführten CSB eliminiert. Aufgrund der starken Temperaturabhängigkeit des CSB-Abbaus, der Dauer des Einfahrbetriebs, der Empfindlichkeit gegenüber zu hohem Schlammabzug und des nicht berechenbaren Feststoffabtriebs ist unter gemäßigten Klimabedingungen und ohne technische Weiterentwicklung des Verfahrens keine über den Wirkungsgrad von Absetzanlagen hinausgehende Eliminationsleistung bei der Bemessung kalkulierbar. Für saisonal belastete Bodenfilter stellt die Abminderung des Flächenbedarfs bzw. die Steigerung der CSB-Flächenbelastung analog zum nicht belasteten Zeitraum eine betriebssichere und wirtschaftliche Lösung dar, bei der die Einhaltung der Mindestanforderungen gewährleistet ist. Bei geforderter Nitrifikation ist aufgrund des hohen TKN-Konzentrationsniveaus im Abwasser aus Fremdenverkehrseinrichtungen ein Wirkungsgrad von > 95 % für die TKN-Elimination erforderlich. Im Abwasser enthaltene Hemmstoffe, insbesondere in Vorkläranlagen gebildetes Sulfid, können die Nitrifikation beeinträchtigen. Dabei werden Ammoniumoxidation und Nitritoxidation gehemmt. Charakteristisch sind hohe NH4-N- und NO2-N-Konzentrationen im Ablauf (Extremwerte bis zu 55 mg NO2-N/l). Während sich Nitritoxidierer über mehrere Jahre an dauerhaft hohe Sulfidkonzentrationen adaptieren können, wird die Ammoniumoxidation direkt über die Sulfidkonzentration beeinflusst. / In rural communities seasonal factors complicate design and operation of wastewater treatment plants. Tourism as well as agricultural harvesting and processing campaigns are the major causes for seasonal load variations. Due to the fact that accommodation capacities in rural tourism industry rarely exceed 100 beds small sewage treatment plants are acquired if a connection to a sewer system is not feasible. Small wastewater treatment plants can be designed using the population equivalents (PE). According to the German Water Association spreadsheet ATV-DVWK-A 198, PEs are defined as the 85-%-percentile input load. Wastewater of basic accommodations like camping sites and lodges contains higher levels of nitrogen and phosphorous compounds than 'standard' domestic wastewater. The mean specific nitrogen loads reach 10 – 11 g/guest/d, the mean specific COD-load 52 – 68 g/guest/d. The special amenities of vacation homes (restaurant, laundry) affect the real loads and have to be considered in dimensioning. Regarding the treatment of seasonal wastewater, processes with large upstream buffer or large internal buffer, such as constructed wetlands, are suitable. Furthermore, at moderate temperatures anaerobic pretreatment devices, like anaerobic baffled reactors (ABR), can reduce the input load to aerobic post treatment stages. An approximate COD elimination of 50 % can be expected by anaerobic degradation and sedimentation in the ABR in combination with upstream primary clarifiers at around 20 °C. Due to the strong temperature dependence, the long start-up-period, the sensitivity towards fail-desludging, the generation of immediate oxygen demand at low temperatures as well as unpredictable sludge overflow events, it does not seem justified to calculate higher design elimination efficiencies for ABRs than for sedimentation tanks. The design of subsurface vertical flow constructed wetlands with seasonally induced high loading periods are approved for the elimination of organic substances. This accepted assumption was confirmed for the plant under investigation operated at a mean COD-load of 20 g/m²/d, not exceeding the effluent control values for COD in six years. In contrast, oxidation of ammonia and nitrite were inhibited by high sulfide levels (mean sulfide concentration: 48 ± 26 mg/L). Nitrite accumulation reached its peak value at 55 mg NO2-N/L and decreased within 4 years below 1 mg/L due to the adaption of nitrite-oxidizing microorganisms.

info:eu-repo/classification/ddc/550

ddc:550