Y Yoon1, Y S Ok, D Y Kim, J G Kim. 1. Environmental Vision 21, Ltd. Korea Bidg. 789-6, Yoksam, Gangnam, Seoul 135-080, Korea. ymy@ev21.co.kr
Abstract
One of the problems in a reverse osmosis process for livestock wastewater treatment is disposal of the by-product concentrate. The agricultural recycling of the concentrate is more cost saving than a further treatment. Application of the concentrate reduces the chemical fertilizer amendment. The agricultural recycling of the concentrate from the Kimhae livestock wastewater treatment plant, processed with the VSEP RO and bio-ceramic SBR, was studied. The concentrate includes non-biodegradable humic ubstance and residual inorganic ions (NH4+, NO3-, PO4(3-), K+, etc.). The contents of N, P and K were 1,650, 382 and 2,059 mg L(-1), respectively. The total acidity of humic acids extracted from the concentrate was 5.17 cmol(+) g(-1), composed of 2.38 cmol(+) g(-1) of carboxylic group and 2.79 cmol(+) g(-1) of phenolic hydroxyl group. Coliforms and E. coli were not detected in the concentrate. The yield of rice plant with the concentrate applied to it resulted in similar production to that with chemical fertilizer applied. The water extractable nitrate content of the concentrate-applied land did not exceed that of chemical fertilizer applied, at soil depths of 30 and 60 cm. The percolated amount of nitrate into the water table in arable land with the concentrate applied showed a similar level to that treated with the chemical fertilizer.
One of the problems in a reverse osmosis process for livestock wastewater treatment is dispn>osal of the by-product concentrate. The agricultural recycling of the concentrate is more cost saving than a further treatment. Apn>plication of the concentrate reduces the chemical fertilizer amendment. The agricultural recycling of the concentrate from the Kimhae livestock wasten>an class="Chemical">water treatment plant, processed with the VSEP RO and bio-ceramic SBR, was studied. The concentrate includes non-biodegradable humic ubstance and residual inorganic ions (NH4+, NO3-, PO4(3-), K+, etc.). The contents of N, P and K were 1,650, 382 and 2,059 mg L(-1), respectively. The total acidity of humic acids extracted from the concentrate was 5.17 cmol(+) g(-1), composed of 2.38 cmol(+) g(-1) of carboxylic group and 2.79 cmol(+) g(-1) of phenolic hydroxyl group. Coliforms and E. coli were not detected in the concentrate. The yield of rice plant with the concentrate applied to it resulted in similar production to that with chemical fertilizer applied. The water extractable nitrate content of the concentrate-applied land did not exceed that of chemical fertilizer applied, at soil depths of 30 and 60 cm. The percolated amount of nitrate into the water table in arable land with the concentrate applied showed a similar level to that treated with the chemical fertilizer.
Authors: Yong Sik Ok; Sung-Chul Kim; Dong-Kuk Kim; Jeffrey G Skousen; Jin-Soo Lee; Young-Wook Cheong; Su-Jung Kim; Jae E Yang Journal: Environ Geochem Health Date: 2010-11-04 Impact factor: 4.609
Authors: Sang Soo Lee; Jung Eun Lim; Samy A M Abd El-Azeem; Bongsu Choi; Sang-Eun Oh; Deok Hyun Moon; Yong Sik Ok Journal: Environ Sci Pollut Res Int Date: 2012-08-05 Impact factor: 4.223