• Title/Summary/Keyword: potassium fertilzer

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Preparation of Slow-Release Potassium Silicate Fertilizer Using Converter Slag (전로(轉爐)슬래그를 활용(活用)한 완효성(緩效性) 칼리 비료(肥料)의 제조(製造) 특성(特性))

  • Yang, Yeong-Ho;Kim, Young-Hwan;Ko, In-Yong
    • Resources Recycling
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    • v.16 no.4
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    • pp.10-16
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    • 2007
  • As a basic study for reusing converter slag as slow-release potassium fertilizer by a sintering process, powdery converter slag and reagent grade $SiO_2\;and\;K_2CO_3$ were mixed with ball mill above 24 hours and sintered at $900^{\circ}C{\sim}1000^{\circ}C\;for\;10{\sim}60$ min. Basicity of the mixed powder was controlled to 0.7, 1.0 and 1.4 and content of $K_2O$ was fixed with 22 mass%. After sintering, property of the potassium fertilizer was investigated with X-ray diffraction pattern and ICP analysis. Also effects of basicity, sintering temperature and time on the making slow-release potassium fertilizer was investigated. Water solubility of KBO in sample were decreased with sintering time, temperature and decreased with basicity. Citric acid solubility of $K_2O$ were increased with basicity and decreased with sintering temperature.

Studies on the Development of Compound Fertilizer for Raising Rice Seedling in Trays for Machine Transplanting -I. Manufacture of Compound Fertilizer (수도상자육묘용(水稻箱子育苗用) 전용복합비료(專用複合肥料) 개발연구(開發硏究) -I. 비료(肥料) 제조시험(製造詩驗))

  • Choi, Du-Hoi;Yuk, Chang-Soo;Shin, Jae-Sung;Han, Ki-Hak
    • Korean Journal of Soil Science and Fertilizer
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    • v.22 no.2
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    • pp.100-104
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    • 1989
  • This study was carried out in order to develop a compound fertilizer for raising rice seedling in trays. A compound fertilizer, a trail product, was manufactured using the major fertilizer sources of ammonium sulfate, diammonium phosphate and potassium chloride in combination with zeolite and glutamic acid fermentation waste. Besides, polyacrylamide for slow release control of the fertilzer and Tachigaren and sulfuric acid for reducing the occurrence of seedling rot were used. The component ratios of N, $P_2O_5$ and $K_2O$ of trial product were 4.19, 5.41 and 4.05 percent respectively. The dissolution rate of nitrogen component in water for the trial product with polyacrylamide was lower about fifteen percents than the product without polyacylamide in six hours. Hymexazole, main component of Thachigaren, from the product was released about 86.2 percents in forty eight hours. When the product with polyacylamide applied on red earth soil and paddy soil, the pH of soil ranged from 4.6 to 5.4 for 25 days experiment.

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Effect of Nitrogen fertilizers on Soil pH, EC, NO3-N and Lettuce(Lactuca Sativa. L.) Growth (질소비종이 토양의 pH, EC, NO3-N 함량 및 상추 생육에 미치는 영향)

  • Lee, Gyeong-Ja;Kang, Bo-Koo;Kim, Hyun-Ju;Park, Seong-Kyu;Min, Kyeong-Beom
    • Korean Journal of Soil Science and Fertilizer
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    • v.34 no.2
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    • pp.122-128
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    • 2001
  • In order to find out the effect of nitrogen fertilizers on soil pH, EC, $NO_3-N$ and lettuce growth, this study was conducted by pot experiment in plastic film house condition. The square-pot which was $42{\times}54.5{\times}22cm$ in length, width and height, respectively, was filled with two kinds of soils in different soil EC as $0.20dS\;m^{-1}$ and $1.13dS\;m^{-1}$. Seven kinds of nitrogen fertilizers (urea, potassium nitrate, calcium nitrate, ammonium nitrate, ammonium sulphate, complex fertilizer A(11-10-10) and complex fertilizer B(12-12-12)) were treated in same standard rate of nitrogen for lettuce, transplanted the six lettuce seedlings of 10 days grown per pot, and have been grown for 38~44 days with three times harvesting. Soil pH was increased with the potassium and calcium nitrate treatments and decreased with ammonium nitrate, ammonium sulphate, complex fertilzer A and B, and the pH of urea treatments was kept the same value as the pH of before experiment. The growing status of lettuce seedling were surveyed during the early period after transplanting and withering of seedling was occured in all treatments. The withering rates were 10% in soil of EC $0.20dS\;m^{-1}$ and 44% and 42% in complex fertilizer and ammonium sulphate treaments, respectively, in soil of EC $1.13dS\;m^{-1}$. $NO{_3}^-$ contents of lettuce were about $1,000{\sim}2,000mg\;kg^{-1}$ based on fresh weight and these contents were considered to be lower to compare the $NO{_3}^-$ level of EU countries.

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