Chemical characteristics of soil irrigated with produced water treatment and underground water

Danniely Oliveira Costa; Hudson Salatiel Marques Vale; Rafael Oliveira Batista; Kaline Dantas Travassos; Jeane Cruz Portela

doi:10.15446/dyna.v86n210.79115

Publicado

2019-07-01

Chemical characteristics of soil irrigated with produced water treatment and underground water

Características químicas del suelo irrigado con agua producida tratada y agua subterránea

DOI:

https://doi.org/10.15446/dyna.v86n210.79115

Palabras clave:

petroleum, wastewater, sodicity, salinization (en)
aceite, aguas residuales, sodicidad, salinización. (es)

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Autores/as

Danniely Oliveira Costa Federal Semi-Arid Rural University https://orcid.org/0000-0001-7966-9417
Hudson Salatiel Marques Vale Federal Semi-Arid Rural University https://orcid.org/0000-0002-5391-117X
Rafael Oliveira Batista Federal Semi-Arid Rural University https://orcid.org/0000-0002-3083-6808
Kaline Dantas Travassos Federal Semi-Arid Rural University https://orcid.org/0000-0002-5882-0402
Jeane Cruz Portela Federal Semi-Arid Rural University https://orcid.org/0000-0002-9207-5530

Resumen (en)
Resumen (es)

Irrigation effects of produced water treatment, diluted in underground water, were analyzed through the chemical characteristics of argisol with foraging palm. Assay was performed in a randomized block design (RBD), with five replications, in a subdivided split plot scheme. Splits comprised treatments T1 (100% underground water - UW, control), T2 (75% UW and 25% produced water treatment - PW), T3 (50% UW and 50% PW), T4 (25% UW and 75% PW) and T5 (100% PW), whilst sub splits comprised soil depths (0 - 0.10 m and 0.10 - 0.20 m). The results showed that irrigation with diluted treated water produced no risk of soil salinization. There was evidence of leaching of the mobile ions to the deeper layer of soil, especially sodium and magnesium. The highest risk of sodification was observed for soil irrigated only with groundwater (T1 - control treatment).

Los efectos de riego del tratamiento del agua producida, diluida en agua subterránea, se analizaron a través de las características químicas del argisol con palma de forrajeo. El experimento se estableció en un delineamiento experimental de bloques al azar (DBA), con cinco repeticiones, en un esquema de parcelas subdivididas. Las parcelas comprendieron los tratamientos T1 (100% agua subterránea - AS, control), T2 (75% AS y 25% de agua producida - AP), T3 (50% AS y 50% AP), T4 (25% AS y 75% AP) y T5 (100% AT), y en las subparcelas comprendieron las profundidades de muestreo del suelo (0 - 0,10 m y 0,10 - 0,20 m). Los resultados revelaron que la irrigación con agua producida tratada diluida no provocó riesgo de salinización del suelo. Hubo indicio de lixiviación de los iones móviles para la capa más profunda del suelo, principalmente sodio y magnesio. El mayor riesgo de sodificación fue observado para el suelo irrigado sólo con agua subterránea (T1 - tratamiento control).

Referencias

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Cómo citar

IEEE

[1]

D. Oliveira Costa, H. S. Marques Vale, R. O. Batista, K. D. Travassos, y J. C. Portela, «Chemical characteristics of soil irrigated with produced water treatment and underground water», DYNA, vol. 86, n.º 210, pp. 143–149, jul. 2019.

ACM

[1]

Oliveira Costa, D., Marques Vale, H.S., Batista, R.O., Travassos, K.D. y Portela, J.C. 2019. Chemical characteristics of soil irrigated with produced water treatment and underground water. DYNA. 86, 210 (jul. 2019), 143–149. DOI:https://doi.org/10.15446/dyna.v86n210.79115.

ACS

(1)

Oliveira Costa, D.; Marques Vale, H. S.; Batista, R. O.; Travassos, K. D.; Portela, J. C. Chemical characteristics of soil irrigated with produced water treatment and underground water. DYNA 2019, 86, 143-149.

APA

Oliveira Costa, D., Marques Vale, H. S., Batista, R. O., Travassos, K. D. & Portela, J. C. (2019). Chemical characteristics of soil irrigated with produced water treatment and underground water. DYNA, 86(210), 143–149. https://doi.org/10.15446/dyna.v86n210.79115

ABNT

OLIVEIRA COSTA, D.; MARQUES VALE, H. S.; BATISTA, R. O.; TRAVASSOS, K. D.; PORTELA, J. C. Chemical characteristics of soil irrigated with produced water treatment and underground water. DYNA, [S. l.], v. 86, n. 210, p. 143–149, 2019. DOI: 10.15446/dyna.v86n210.79115. Disponível em: https://revistas.unal.edu.co/index.php/dyna/article/view/79115. Acesso em: 18 mar. 2026.

Chicago

Oliveira Costa, Danniely, Hudson Salatiel Marques Vale, Rafael Oliveira Batista, Kaline Dantas Travassos, y Jeane Cruz Portela. 2019. «Chemical characteristics of soil irrigated with produced water treatment and underground water». DYNA 86 (210):143-49. https://doi.org/10.15446/dyna.v86n210.79115.

Harvard

Oliveira Costa, D., Marques Vale, H. S., Batista, R. O., Travassos, K. D. y Portela, J. C. (2019) «Chemical characteristics of soil irrigated with produced water treatment and underground water», DYNA, 86(210), pp. 143–149. doi: 10.15446/dyna.v86n210.79115.

MLA

Oliveira Costa, D., H. S. Marques Vale, R. O. Batista, K. D. Travassos, y J. C. Portela. «Chemical characteristics of soil irrigated with produced water treatment and underground water». DYNA, vol. 86, n.º 210, julio de 2019, pp. 143-9, doi:10.15446/dyna.v86n210.79115.

Turabian

Oliveira Costa, Danniely, Hudson Salatiel Marques Vale, Rafael Oliveira Batista, Kaline Dantas Travassos, y Jeane Cruz Portela. «Chemical characteristics of soil irrigated with produced water treatment and underground water». DYNA 86, no. 210 (julio 1, 2019): 143–149. Accedido marzo 18, 2026. https://revistas.unal.edu.co/index.php/dyna/article/view/79115.

Vancouver

1.

Oliveira Costa D, Marques Vale HS, Batista RO, Travassos KD, Portela JC. Chemical characteristics of soil irrigated with produced water treatment and underground water. DYNA [Internet]. 1 de julio de 2019 [citado 18 de marzo de 2026];86(210):143-9. Disponible en: https://revistas.unal.edu.co/index.php/dyna/article/view/79115

Descargar cita

CrossRef Cited-by

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1. Stella I. Eyitayo, Marshall C. Watson, Oladoyin Kolawole, Pei Xu, Robert Bruant, Lisa Henthorne. (2022). External utilization of oil and gas produced water: Why is the industry hesitant to full-scale implementation?. Environment, Development and Sustainability, 26(1), p.89. https://doi.org/10.1007/s10668-022-02746-0.

2. Talita Dantas Pedrosa, Rafael Oliveira Batista, Solange Aparecida Goularte Dombroski, José Francismar de Medeiros, Palloma Vitória Carlos de Oliveira, Rafael Rodolfo de Melo, Jeane Cruz Portela. (2024). Use of aquaculture wastewater in the cultivation of cactus pear as an alternative for semi-arid regions. Discover Applied Sciences, 6(5) https://doi.org/10.1007/s42452-024-05939-6.

3. Hudson S. M. Vale, Danniely O. Costa, Rafael O. Batista, Francisco de A. de Oliveira, José F. de Medeiros, Daniela da C. L. Coelho. (2020). Distribution uniformity in drip units applying dilutions of treated water produced by oil exploration. Revista Brasileira de Engenharia Agrícola e Ambiental, 24(6), p.394. https://doi.org/10.1590/1807-1929/agriambi.v24n6p394-401.

4. Stella I. Eyitayo, Marshall C. Watson, Oladoyin Kolawole. (2022). Produced Water Treatment and Utilization: Challenges and Future Directions. SPE Western Regional Meeting. https://doi.org/10.2118/209310-MS.

5. S. I. Eyitayo, M. C. Watson, O. Kolawole. (2023). Produced Water Management and Utilization: Challenges and Future Directions. SPE Production & Operations, 38(03), p.367. https://doi.org/10.2118/209310-PA.

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