作 者 :杜建军1;王新爱1;廖宗文2;田吉林3;陈静虹2
期 刊 :植物营养与肥料学报 2005年 11卷 1期 页码:71-78
Keywords:controlled-release fertilizer, slowed-release fertilizer, extract condition, water dissolution rate,
摘 要 :以几种不同包膜材料控/缓释肥为供试肥料,研究不同肥(养分)水比、浸提方式(连续浸提和更换浸提液)、温度和pH条件对控/缓释肥水中溶出率的影响。结果表明,浸提液中肥料浓度是影响养分释放的重要因素,加大肥水比、更换浸提液可以显著减小这种影响。升高温度,有机和无机材料包膜控/缓释肥水中溶出率均显著加快。肥料类型、肥水比对浸提液的pH都有显著影响,但在连续浸提和更换浸提液方式下,7d内浸提液的pH有着不同的变化趋势。控/缓释肥在pH.5的磷酸盐缓冲液中的溶出率显著高于在pH.7的磷酸盐缓冲液中的溶出率。因此,对于不同包膜材料控/缓释肥以一定pH值的微酸性缓冲溶液作为浸提剂,定期更换浸提液或采用动态流法,相同的氮(或磷、钾)水比,30℃左右的浸提条件是较为合理的。
Abstract:Using water to extract coated controlled /slowed-release fertilizers(CRFs/SRFs) and calculate the amount of released nutrient in stated time was an popular method for evaluating nutrient release characteristic of CRFs/SRFs. For different researchers and manufacturers, however, the extract modes and conditions were much different. So in this paper the effects of different fertilizer ( nutrient) -water ratio [ 1 : 100 , 1 : 20, 1 : 5 ( Fert. -water ratio ) , 1 : 100 , 1 : 50 ( N-water ratio) ], extraction modes (continuous and renewing eluant) , temperature (25℃,35℃,60℃) , and eluant pH(using pH 5.0 and pH 7.0 phosphate buffer)on water dissolution rate of coated CRFs/SRFs with different materials were studied. All the fertilizer were extracted for 7 days and their dissolution rate were measured every day. The results showed that the fertilizer concentration in the solution continuously increased under continuous extraction. The fertilizer concentration of the eluant was an important factor affecting on nutrient release of CRFs/SRFs. So enlarging fertilizer-water ratio, renewing eluant could decrease this effect. Temperature had a very important effect on nutrient release of CRFs/SRFs. For both organic and inorganic material-coated fertilizers, increasing temperature could significantly speed up water dissolution rate. But too low or high extraction temperature was not good because too low temperature would spend more time for the CRFs/SRFs to release their nutrients and too high temperature would conceal or reduce the differences of both rate and model of nutrient release among the CRFs/SRFs because the nutrient of the fertilizer released very fast in 1 to 7 day. The fertilizer type and fertilizer-water ratio had significant effects on pH values of the eluants. For the 5 tested fertilizer types,the trends of pH changing were different under continuous extracting and renewing extraction mode in seven days. Under continuous extraction, the pH value increased continuously as time prolonging, the highest pH was about 2.81 unit higher than the lowest one from 1 to 7 day. But under renewing extraction, the pH value decreased a little as time prolonging. The release rates of CRFs/SRFs in pH5 phosphate buffer were much higher than that in pH7 phosphate buffer. Therefore, for CRFs/SRFs, using a certain acid-ascent pH buffer, periodic renewing the eluant or under dynamic flow and same N (P, K)-water ratio at about 30℃ was more reasonable.
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