Proposition and Evaluation of an Experimental System of Physical and Chemical Processes for Treatment of Leachate

Authors

  • Eduardo Antonio Maia Lins Department of Environmental Engineering, Catholic University of Pernambuco, Brazil
  • José Fernando Thomé Jucá Department of Civil Engineering, Federal University of Pernambuco, Brazil
  • Cecília Maria Mota Silva Lins Cabo of Santo Agostinho Academic Unity, Rural Federal University of Pernambuco, Brazil
  • Alessandra Lee Barbosa Firmo Department of Environmental Engineering, Federal Institute of Pernambuco, Brazil

Keywords:

Waste, effluent, improvement, efficiency, cost.

Abstract

The treatment of leachate from landfills of urban solid waste has become a major challenge for the scientific community since not always a treatment system adopted for one region becomes suitable for another, due to the great variability of the composition of the leachate. The treatment systems to be adopted should take into account the particularities of the region in order to make the system economically viable. In general, the conception adopted as the scope of this research consisted of a system of low cost, easy implementation, simple operation and good removal of pollutants. During the pilot scale analyzes, a flow rate of 0.1 L/s was adopted, which is equivalent to about 10% of the actual flow of the Muribeca Landfill, located in Jaboatão dos Guararapes, state of Pernambuco, Brazil. The designed pilot station is composed of three steps: chemical precipitation, ammonia stripping and reactive barrier with activated carbon. The results of this study showed an average removal performance of BOD (> 80%) and COD (> 85%) higher than the 80% removal efficiency required by state legislation for the treatment of leachate, making it sufficient to launch in the rivers.

The concentration of ammonia for all the tests performed was above that allowed by federal legislation due to the low detention time adopted for the ammonia stripping stage.  As to the color of the leachate, in general it did not give a marked change of coloration to the recipient body after its release, being in accordance with the federal legislation. Estimating the final cost of the real-scale treatment, an average value below the one practiced in Brazil was obtained.

References

FERNANDEZ, A. C. Q.; SILVA, F. S. B.; MOURA, R. S. C.; GEOTemas, Pau dos Ferros, Rio Grande do Norte, Brasil, v.6, n.2, p.30-47, Jul./Dez. 2016.

CARDOSO, F. C. I.; CARDOSO, J. C.; O problema do lixo e algumas perspectivas para redução de impactos. Cienc. Cult. vol.68 no.4 São Paulo Oct./Dec. 2016.

MAITIA, S. A.; DEA, S.; HAZRAB, T.; DEBSARKARB, A.; DUTTAB, A.; Characterization of Leachate and Its Impact on Surface and Groundwater Quality of a Closed Dumpsite - A Case Study at Dhapa, Kolkata, India. Procedia Environmental Sciences , 35 ( 2016 ) 391 – 399.

YAO, P.; Perspectives on technology for landfill leachate treatment, Arabian Journal of Chemistry, Volume 10, Supplement 2, May 2017, Pages S2567-S2574

TREBOUET, D.; SCHLUMPF, J. P.; JAOUEN, P.; QUÉMENÉOUR, F. (2001). Stabilized landfill leachate treatment by combined physic-chemical-nanofiltration process. Environmental Technology, v. 20, p. 587–596.

Safaa M. Raghab, Ahmed M. Abd El Meguid, Hala Ahmed Hegazi, Treatment of leachate from municipal solid waste landfill. HBRC Journal (2013) 9, 187–192.

THORNTON, R. J.; BLANC, F. C. (1973). Leachate Treatment by Coagulation and Precipitation. Journal of Environmental Engineering, p. 9946 - 9950.

HO, S.; BOYLE, C. W.; HAM, R. K. (1974). Chemical Treatment of Leachates from Sanitary Landfills. Journal WPCF, p. 860-871.

KEENAN, J.D.; STEINER, R.L.; FUNGAROLI, A.A. (1984). Chemical-physical leachate treatment. Journal Water Pollution Control Federation, v. 56.

SLATER, C.S.; AHLERT, R. C.; UCHRIN C.G. (1983b). Physico-chemical pretreatment of landfill leachates using coagulation. Journal of Environmental Science and Health, v. 18, 125-134.

MILLOT, N. (1986). Les Lixiviats de décharges contrô1ées. Caractérisation analytique. Etude es filiéres de traitement. Tese de Doutorado: Instituto Nacional de Ciências Aplicadas de Lyon.

AMOKRANE, A., COMEL, C., VERON, J. (1997). Landfill leachates pretreatment by coagulation-flocculation. Water research, v. 31, n. 11, p. 2775-2782.

EL-FADEL, M., BOU-ZEID, E., CHAHINE, W. (2003). Landfill Evolution and Treatability Assessment of High-Strenght Leachate from MSW with High Organic and Moisture Content. International Journal Environmental, v. 60, p. 603-615.

GIORDANO, G. (2003). Análise e formulação de processos para tratamento dos chorumes gerados em aterros de resíduos sólidos urbanos. Tese de Doutorado - Departamento de Ciência dos Materiais e Metalurgia, Pontifícia Universidade Católica do Rio de Janeiro, Rio de Janeiro-RJ. 257 p.

RENOU, S.; POULAIN, S.; GIVAUDAN, J.G.; SAHUT, C.; MOULIN, P. (2009). Lime Treatment of Stabilized Leachates. Waste Management, v. 59, p. 673 - 685.

POVINELLI, J.; SOBRINHO, P. A. (2009). Estudos de caracterização e tratabilidade de lixiviados de aterros sanitários para as condições brasileiras. Projeto Prosab. Rio de Janeiro, ABES, 360 p.

SANTANA-SILVA, F. M.; SANTOS, R. F. V.; LINS, E. A. M.; LINS, C. M. M.; JUCÁ, J. F. T. (2009). Avaliação do método de precipitação química utilizando hidróxido de cálcio no tratamento do liviado do Aterro da Muribeca-PE. In: 25º Congresso Brasileiro de Engenharia Sanitária e Ambiental, Recife - PE.

THIVYATHARSAN, R.; RAJENDRAN, M.; Performance evaluation of different cost effective leachate treatment methods suitable for developing countries, ISAE 2013. Proceedings of the International Symposium on Agriculture and Environment 2013, 28 November 2013, University of Ruhuna, Sri Lanka.

BENTO, E. R.; LEITE, V. D.; LOPES, W. S.; SOUSA, J. T.; LUNA, L. M. D. (2008). Estudo da influência do pH no Processo de Stripping de Amônia em Líquidos Lixiviados. In: XIII Simpósio Luso-Brasileiro de Engenharia Sanitária e Ambiental, Belém-PA.

DA SILVA, F. B.; YOKOYAMA, L.; CAMPOS, J. C.; FERRO, B. R. P. (2009). Utilização de processos combinados no tratamento de lixiviado do aterro Metropolitano de Gramacho. In: 25º Congresso Brasileiro de Engenharia Sanitária e Ambiental, Recife - PE.

BELTRÃO, K.G.Q.B. (2006). Sistema de barreira bioquímica como alternativa para o tratamento de percolado. Tese de Doutorado - Centro de Tecnologia e Geociências, Universidade Federal de Pernambuco, Recife-PE. 168 p.

KIPLING, J. J. (1965). Adsorption from solution of non Electrolytes, JAcademic Press, New York, New York.

BURCHINAL, J. C. (1970). Microbiology and Acid Production in sanitary landfills. A summary report, U.S. Department of Health, Solid Waste Program Grant.

CHIAN, E. S. K.; DeWALLE, F. B. (1976). Sanitary landfill leachates and their treatment. Journal of the Environmental Engineering Division, p. 411-431.

McCLINTOC, S. A.; RANDALL, C. W.; MARICKOVICH, D. C.; WANG, G. (1990). Biological nitrification and Denitrification process for treatment of municipal landfill leachate. Journal WPCF, v. 3, p. 04 - 19.

MORAWE, B, RAMTEK, D. S. and VOLGELPOHL, A; Activated carbon column performance studies of biologically treated landfill leachate. Chemical Engineering and Processing: Process Intensification 34, no. 3 (1995): 299–303.

RODRIGUEZ, J.; CASTRILLÓN, L.; MARANNÓS, A.; SASTRE, H. and FERNANDEZ, E.; Removal of non-biodegradable organic matter from landfill leachates byadsorption. Water Research 32, no. 14-15 (2004): 3297–3303.

CONAMA - CONSELHO NACIONAL DO MEIO AMBIENTE. Resolução nº 430, de 13 de maio de 2011: dispõe sobre a classificação dos corpos de água e diretrizes ambientais para o seu enquadramento, bem como estabelece as condições e padrões de lançamento de efluentes, e dá outras providências.

CETESB (Companhia de Tecnologia Ambiental do estado de São Paulo). Guia nacional de coleta e preservação de amostras: água, sedimento, comunidades aquáticas e efluentes líquidos. Companhia Ambiental do Estado de São Paulo; Organizadores: Carlos Jesus Brandão [et al.]. São Paulo: CETESB; Brasília; ANA, 2011.

APHA - AMERICAN PUBLIC HEALTH ASSOCIATION. Standard methods for the examination of water and wastewater. 21 Ed. New York: APHA, WWA, WPCR, 2005.

VON SPERLING, M. (1996). Introdução da qualidade da água e ao tratamento de esgotos. Belo Horizonte: Departamento de Engenharia Sanitária e Ambiental/ Universidade Federal de Minas Gerais. p. 243.

FIRMO, A.L.B. (2013). Estudo Numérico e Experimental da Geração de Biogás a Partir da Biodegradação de Resíduos Sólidos Urbanos – Tese de Doutorado - Departamento de Engenharia Civil, Universidade Federal de Pernambuco, Recife-PE, 288 p.

MENDEZ, R.; LEMA, J. M.; BLAZQUEZ, R.; PAN, M.; FORJAN, M. (1989). Characterization, digestibility and anaerobic treatment of leachates from old and young landfills, Water Sci. Technol. v. 21, p. 145–155.

SOUTO, G.D.B.; POVINELLI, J. (2007). Características do lixiviado de aterros sanitários no Brasil. In: 24º Congresso Brasileiro de Engenharia Sanitária e Ambiental, Belo Horizonte-MG.

CHEUNG, K.C.; CHU, L.M.; WONG, M.H. (1997). Ammonia stripping as a pretreatment for landfill leachate. Water, air and soil pollution, v. 94, p. 209-221.

CLÉMENT, B.; MERLIN, G. (1995). The contribution of ammonia and alkalinity to landfill leachate toxicity to duckweed. The Science of the Total Environmental, v. 170, p. 71-79.

ESTEVES, F.A. (2011). Fundamentos da limnologia. 3. ed. Rio de Janeiro: Interciência. 826 p.

KANG, K.; SHIN, H. S.; PARK, H. (2002). Characterization of Humic Substances Present in Landfill Leachates with Different Landfill Age and Its Implications. Water Research. v. 36, p. 4023- 4042.

CASTILHOS JUNIOR, A.B; LANGE, L.C.; COSTA, R.H.R.; MÁXIMO, V.A.; RODRIGUES, M.C.; ALVES, J.F. (2006). Principais processos físico-químicos utilizados no tatamento de lixiviado de aterro sanitário. In: CASTILHOS JUNIOR, A.B (Coord.). Gerenciamento de resíduos sólidos urbanos com ênfase na proteção de corpos d’água: prevenção, geração e tratamento de lixiviados de aterros sanitários. Florianópolis, ABES, Projeto PROSAB. 494 p.

ALCÂNTARA, P.B. (2007). Avaliação da influência da composição de resíduos sólidos urbanos no comportamento de aterros simulados. Tese de Doutorado - Centro de Tecnologia e Geociências, Universidade Federal de Pernambuco, Recife-PE. 364 p.

AKERMAN, A. (2005). Feasibility of nitrate-shunt (nitritation) on landfill leachate. Dissertação de mestrado, Instituto de Tecnologia, Universidade de Lund (Suécia), 79p.

CLÉMENT, B.; MERLIN, G. (1995). The contribution of ammonia and alkalinity to landfill leachate toxicity to duckweed. The Science of the Total Environmental, v. 170, p. 71-79.

TATSI, A.A., ZOUBOULIS, A.I., MATIS, K.A., SAMARAS, P. (2003). Coagulation–flocculation pre-treatment of sanitary landfill lichgates. Chemosphere, v. 53, p. 737–744.

QASIM, S.R; CHIANG, W. (1994). Sanitary landfill leachate: generation, control and treatment. Lancaster : Technomic Publishing Company, 339 p.

LEI, X.; SUGIURA, N.; FENG, C.; MAEKAWA, T. (2007). Pretreatment of anaerobic digestion effluent with ammonia stripping and biogas purification. Journal of Hazardous Materials, v. 145, p. 391-397.

OZTURK, I.; ALTINBAS, M.; KOYUNCU, I.; ARIKAN, O.; GOMEC-YANGIN, C. (2003). Advanced physico-chemical treatment experiences on young municipal landfill leachates. Waste Management, v. 23, p. 441-446.

FLECK, E. (2003). Sistema integrado por filtro anaeróbio, filtro biológico de baixa taxa e banhado construído aplicado ao tratamento de lixiviado de aterro sanitário. Dissertação de Mestrado - Instituto de Pesquisas Hidráulica, Universidade Federal do Rio Grande do Sul, Porto Alegre-RS. 176 p.

ROBINSON, H.D.; FARROW, S.; CARVILLE, M. S.; GIBBS, L.; ROBERTS, J.; JONES, D. (2009). Operation of the UK´s Largest Leachate Treatment Plant 6 Years of Experience at Arpley Landfill. In: Proceendings Sardinia, Twelfth International Waste Management and Landfill Symposium, Cagliari, Italy. Cagliari.

ROBINSON, H.D.; CARVILLE, M. S. (2007). The Manegement of Gas and Leachate at Tropical Landfill Sites. Ciwem Annual Conference, p. 1-16.

LEITE, V.D.; LUNA, M.L.D.; BENTO, E.R.; LOPES, W.S.; SILVA, R.R.F. (2007). Estudo do pH e nitrogênio amoniacal no processo de stripping de amônia. In: 24º Congresso Brasileiro de Engenharia Sanitária e Ambiental, Belo Horizonte-MG.

LANGE, L.C.; ALVES, J.F.; AMARAL, M.C.S.; MELO JÚNIOR, W.R. (2006). Tratamento de lixiviado de aterro sanitário por processo oxidativo avançado empregando reagente de fenton. Revista de Engenharia Sanitaria e Ambiental, v. 11, n. 2, p. 175-183.

DINIZ, D. T. L. (2010). Remoção de Nitrogênio Amoniacal de Lixiviado de Aterro de Resíduos Sólidos por Precipitação Química com Formação de Estruvita. Dissertação de Mestrado em Tecnologia Ambiental e Recursos Hídricos, Departamento de Engenharia Civil e Ambiental, Universidade de Brasília, Brasília, DF, 111p.

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Published

2019-08-03

How to Cite

Antonio Maia Lins, E., Thomé Jucá, J. F., Mota Silva Lins, C. M., & Barbosa Firmo, A. L. (2019). Proposition and Evaluation of an Experimental System of Physical and Chemical Processes for Treatment of Leachate. American Scientific Research Journal for Engineering, Technology, and Sciences, 58(1), 118–138. Retrieved from https://www.asrjetsjournal.org/index.php/American_Scientific_Journal/article/view/5017

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Vol. 58 No. 1 (2019)

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