International Journal of Biological and Environmental Engineering  
Manuscript Information
 
 
Using Aquatic Plants for Pig Wastewater Treatment After Primary Removal by Biogas Process
International Journal of Biological and Environmental Engineering
Vol.1 , No. 1, Publication Date: Mar. 23, 2018, Page: 5-9
1409 Views Since March 23, 2018, 469 Downloads Since Mar. 23, 2018
 
 
Authors
 
[1]    

Thi Pha Tran, Faculty of Environment, Thai Nguyen University of Agriculture and Forestry, Thai Nguyen City, Viet Nam.

[2]    

Huu Tap Van, Department of Environmental Technology, Faculty of Environment and Earth Sciences, Thai Nguyen University of Sciences (TNUS), Thai Nguyen City, Viet Nam.

[3]    

Thi Huyen Trang Dao, Faculty of Environment, Thai Nguyen University of Agriculture and Forestry, Thai Nguyen City, Viet Nam.

[4]    

Thi Thu Hang Phan, Faculty of Environment, Thai Nguyen University of Agriculture and Forestry, Thai Nguyen City, Viet Nam.

 
Abstract
 

Research on the use of aquatic plants to treat pig wastewater shows that the growth, development and treatment of pollutants are different by others plant species. Results of treatment of pig wastewater by three aquatic plants including hyacinth, spinach and lucky bamboo were quite high. Lucky bamboo was the most efficiency in removing pig wastewater. After 4 weeks of treatment, DO decreased from 2.96 mg/l to 2.267 mg/l (reached 60.91%). BOD5 reduced from 13.653 mg/l to 5.707 mg/l (91.08%). After treatment, COD dropped from 17.067 mg/l to 7.133 mg/l (86.07%). TSS removal reached 16.75% (from 34 mg/l to 33.3 mg/l). Cl- decreased from 8.833 mg/l to 4.567 mg/l (77.72%) and the removal of NO3- was 65.09% (reduced from 1.54 mg/l to 0.641 mg/l. Pts indicator (PO43-) decreased from 0.017 mgl to 0.009 mg/l with the efficiency of 99.3% after 4 weeks.


Keywords
 

Pig Wastewater, Hyacinth, Spinach, Lucky Bamboo and Aquatic Plants


Reference
 
[01]    

Carney K. N, Rodgers, Lawlor, Zhan (2011), "A sustaninable technology for the treatment of piggery wastewaters", Proceedings of the Global conference on Global warming, lisbon, Portugal, 1-7.

[02]    

Dang Dinh Kim, Le Duc, Tran Van Tua, Bui Thi Kim Anh, Dang Thi An (2011), "Phytoremediation", Agricultural Publishing House.

[03]    

Hoang Hue (1996), Wastewater Treatment, Hanoi Construction Publishing House.

[04]    

Le Van Binh (2007), "Research on the use of aquatic plants in agriculture and environmental impacts in Thua Thien Hue", Journal of Agriculture and Rural Development (7), p. 3-4.

[05]    

Le Quoc Tuan (2006), "Bringing aquatic plants into the aquaculture system to clean the aquatic environment", Journal of Science, Hanoi Agricultural University (5), p. 10-15.

[06]    

Luong Duc Pham (2003), Biological wastewater treatment technology, Educational Publishing House, Hanoi.

[07]    

Natsima Tokhun (2010), "Piggery farm wastewater: Alternative solution for agriculture and soil fertility", International Journal of Environmental and Rural Development (1-2), p. 58-61.

[08]    

Nazim Muradov Mohamed Taha, Ana F Miranda, Krishna Kadali, Amit Gujar, Simone Rochfort, Trevor Stevenson, Andrew S Ball, and Aidyn Mouradov (2014), "Dual application of duckweed and azolla plants for wastewater treatment and renewable fuels and petrochemicals production", Biotechnol Biofuels, p. 7-30.

[09]    

Piyush Gupta, Surendra Roy, Amit B. Mahindrakar (2012), "Treatment of Water Using Water Hyacinth, Water Lettuce and Vetiver Grass - A Review", Resources and Environment (2), p. 202-215

[10]    

Supaporn Pongthornpruek (2017), "Treatment of Piggery Wastewater by Three Grass Species Growing in a Constructed Wetland", Applied Environmental Research (39), p. 75-83.





 
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