Evaluation of Natural Minerals (Zeolite and Bentonite) for Nitrogen Compounds Adsorption in Different Water Temperatures Suitable for Aquaculture

IF 0.3
D. Şahin, M. Öz, E. Sertaşi, Ünal Öz, Z. Karslı, O. Aral
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引用次数: 11

Abstract

In this study, it was aimed to determine the effects of zeolite and bentonite on the ammonium adsorption at different temperatures. In this research three trial groups with 3 repetitions were created for three different water temperatures (18±0.1°C, 24±0.0°C, 27±0.0°C). Experimental groups were prepared by adding NH4+amount of 10.5 mg/l in 2 liters of water. After that, zeolite, zeolite+bentonite and bentonite were added into the bottles as 10 gram per liter. Water temperature, pH and TAN (Total Ammonium Nitrogen) values were determined during the trial period. At the end of trial TAN values at 27 °C were recorded as 10.103±0.11 mg/l, 9.227±0.13 mg/l and 7.933±0.17 mg/l in zeolite, zeolite+bentonite and bentonite groups, respectively. At the end of trial TAN values at 24 °C were recorded as 10.027±0.17 mg/l, 9.282±0.15 mg/l and 8.336±0.15 mg/l in zeolite, zeolite+bentonite and bentonite groups, respectively. At the end of trial TAN values at 18 °C were recorded as 9.012±0.28 mg/l, 7.702±0.14 mg/l and 6.594±0.14 mg/l in zeolite, zeolite+bentonite and bentonite groups, respectively. Maximum ammonium removal capacity, qe, was found to be 0.50 mg/g in the bentonite (18 °C). The TAN values determined at 18 °C were statistically more significant (p<0.05) than the TAN values obtained at 24 °C and 27 °C.
天然矿物(沸石和膨润土)在适合水产养殖的不同水温下对氮化合物的吸附性能评价
研究了沸石和膨润土在不同温度下对铵盐吸附性能的影响。本研究在3种不同的水温(18±0.1°C, 24±0.0°C, 27±0.0°C)下建立3个试验组,每组3次重复。在2升水中加入10.5 mg/l的NH4+制备实验组。然后将沸石、沸石+膨润土和膨润土按10克/升的比例加入瓶中。试验期间测定了水温、pH和总铵态氮(TAN)值。实验结束时,沸石、沸石+膨润土和膨润土组在27℃时的TAN值分别为10.103±0.11 mg/l、9.227±0.13 mg/l和7.933±0.17 mg/l。实验结束时,沸石组、沸石+膨润土组和膨润土组在24℃时的TAN值分别为10.027±0.17 mg/l、9.282±0.15 mg/l和8.336±0.15 mg/l。实验结束时,沸石、沸石+膨润土和膨润土组在18℃时的TAN值分别为9.012±0.28 mg/l、7.702±0.14 mg/l和6.594±0.14 mg/l。在18℃条件下,膨润土的最大脱铵量qe为0.50 mg/g。在18°C下测定的TAN值比在24°C和27°C下测定的TAN值具有统计学意义(p<0.05)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Letters of Natural Sciences
International Letters of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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