保水型包膜缓释尿素的制备及释肥特性

doi:10.16843/j.sswc.2022.06.013

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摘要传统尿素肥料的利用率低,造成严重的农业资源浪费和面源污染,同时水资源不足也是限制我国农业发展的重要因素之一。因此,保水型包膜缓释尿素的应用已成为土壤养分资源优化施用和节水型农业发展的必然趋势。但现有的保水型包膜缓释尿素成本过高,限制其在农业上的推广应用。因此,开发高效廉价且有保水功能的缓释肥料是目前的研究重点。利用转鼓包衣技术,以大颗粒尿素为内核载体、混合料(凹凸棒∶粉煤灰=8∶2)为内层、聚丙烯酸树脂为中层、高吸水性树脂为外层,研制出新型保水型包膜缓释尿素(WRCU)肥料,并探讨WRCU的最佳组分比例,及其在土壤介质中的养分释放特性。WRCU中各成分的最佳质量比为内层∶中层∶外层∶内核=20∶11∶3∶66。WRCU的抗压强度为81.59N,最大吸水倍率为641g/g,土柱中1d总氮溶出率为12.25%,30d内的总氮和尿素氮的养分浸出率分别为81.27%和47.62%;而未包衣的大颗粒尿素在1d内的总氮和尿素氮的养分浸出已达86.38%和83.26%。

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	董磊
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关键词 ：保水型包膜缓释尿素(WRCU), 保水性和缓释性能, 释肥特征, 尿素利用率

Abstract：[Background] The low utilization rate of traditional urea fertilizer has caused serious waste of agricultural resources and non-point source pollution, and the shortage of water resources has also become one of the important factors restricting the development of agriculture in China. Therefore, water-retaining coated slow-release (WRCU) urea has become the inevitable trend of optimal application of soil nutrient resources and development of water-saving agriculture. However, the cost of the existing WRCU is too high, which limits its application in agriculture. [Methods] A novel WRCU fertilizer was developed by using the transfer drum coating technique with large particle urea as the inner core carrier, blend (attapulgite∶fly ash=8∶2) as the inner layer, polyacrylic acid resin as the middle layer, and high water absorption resin as the outer layer, to explore the optimal composition ratio of WRCU. The nutrient release rate of WRCU was measured by the Kjeldahl method. Compressive strength of WRCU was measured by universal testing machine. The water retention properties of WRCU were determined by mass difference before and after water absorption from WRCU. Finally, a soil column drenching experiment was used to show the nutrient release characteristics of WRCU in soil media. [Results] The optimal weight ratio of each component in WRCU is: 20% inorganic material (attapulgite∶fly ash=8∶2), 11% polyacrylic acid resin coating amount, 3% superabsorbent resin, the rest is large granule urea. At the same time, the compressive strength of WRCU is 81.59N, the maximum water absorption ratio is 641g/g, total nitrogen dissolution in soil column at 1 day was 12.25%, and the nutrient leaching of total nitrogen and urea nitrogen in 30 day was 81.27% and 47.62%, respectively; while the nutrient leaching of total nitrogen and urea nitrogen by uncoated macroparticles urea within 1d has reached 86.38% and 83.26%. [Conculsions] The WRCU showed good slow-release effect of nutrients and water retention function, and the materials used were easily degradable materials and inexpensive, which made the promotion of WRCU in agriculture possible.

Key words： water-retaining coated slow-release urea (WRCU) water retention and slow release properties characteristics of fertilizer release urea utilization rate

收稿日期: 2021-11-03

PACS:

S157.1

基金资助:国家自然科学基金“第四类新型脲酶抑制剂的优化合成、活性筛选及其作用机制研究”(31071856);浙江省自然科学基金“新型脲酶抑制剂调控尿素高效利用的分子机理及其动力学机制研究”(LY16C150002&Y407318);浙江省一流学科“生物工程”学生创新项目“一体式芬顿-紫外生化反应器的研制及其处理垃圾渗滤液的效果研究(CX2021040)”和学生创新项目“利用虾蟹壳制备铝基甲壳素复合物及其除藻净水性能研究”(CX2021023)

通讯作者: 王趁义(1964-),男,博士,教授,硕士生导师。主要研究方向:环境生物制剂及其应用。E-mail:wcyxz@163.com E-mail: wcyxz@163.com

作者简介: 董磊(1997-),男,硕士研究生。主要研究方向:环境生物制剂及其应用。E-mail:2533178219@qq.com

引用本文:

董磊, 管晨博, 褚东涛, 张念, 王趁义. 保水型包膜缓释尿素的制备及释肥特性[J]. 中国水土保持科学, 2022, 20(6): 109-115.
DONG Lei, GUAN Chenbo, CHU Dongtao, ZHANG Nian, WANG Chenyi. Preparation of water-retaining coated slow-release urea and fertilizer release characteristics. SSWC, 2022, 20(6): 109-115.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2022.06.013 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2022/V20/I6/109

[1]	CHEN Xianxian, WANG Chenyi, FU Jiajia, et al. Synthesis inhibitory activity and inhibitory mechanism studies of Schiff base Cu(Ⅱ) complex as the fourth type urease inhibitors[J]. Inorganic Chemistry Communications, 2019(99): 70.
[2]	FU Jiajia, WANG Chenyi, CHEN Xianxian, et al. Preparation and characterization of APT-FA-based binuclear slow-release fertilizer encapsulated by Eudragit[J]. Agronomy Journal, 2019, 111(5): 2411.
[3]	郭金金, 张富仓, 闫世程, 等. 缓释氮肥与尿素掺混对玉米生理特性和氮素吸收的影响[J]. 植物营养与肥料学报, 2018, 24(5): 1194. GUO Jinjin, ZHANG Fucang, YAN Shicheng, et al. Effects of blending of slow-release nitrogen fertilizer and urea on maize physiological characteristics and nitrogen uptake[J]. Journal of Plant Nutrition and Fertilizers, 2018, 24(5): 1194.
[4]	李志国, 张润花, 陈防, 等. 控释尿素对水旱轮作下水稻产量和氮素利用效率的影响[J]. 中国土壤与肥料, 2018(1): 23. LI Zhiguo, ZANG Runhua, CHEN Fang, et al. Effect of controlled release urea combined application with common urea on yield and nitrogen utilization efficiency of rice in paddy-upland rotation[J]. Soil and Fertilizer Sciences in China, 2018(1):23.
[5]	王趁义, 陈仙仙, 黄兆玮, 等. 第四类脲酶抑制剂对土壤脲酶活性和微生物量的影响[J]. 水土保持通报, 2019, 39(2): 281. WANG Chenyi, CHEN Xianxian, HUANG Zhaowei, et al. Effects of Fourth-type urease inhibitors on soil urease activity and microbial growth[J]. Bulletin of Soil and Water Conservation 2019, 39 (2): 281.
[6]	陈仙仙, 王趁义, 黄兆玮, 等. 第四类配合物型脲酶抑制剂对油菜生长及土壤氮素转化的影响[J]. 水土保持学报, 2019, 33(4): 180. CHEN Xianxian, WANG Chenyi, HUANG Zhaowei, et al. Effects of the fourth type of complex urease inhibitors on rapeseed growth and social nitrogen transformation[J]. Journal of Soil and Water Conservation, 2019, 33(4): 180.
[7]	王建政. 旱地小麦保护性耕作对土壤水分的影响[J]. 中国水土保持科学, 2007, 5(5): 71. WANG Jianzheng. Influence of protective farming on soil water of wheat field[J]. Science of Soil and Water Conservation, 2007, 5(5): 71.
[8]	曹兵, 王孟, 杨凯劲, 等. P(AA-AM)/SiO2复合保水材料的制备及其在保水缓释肥中应用[J]. 农业工程学报, 2020, 36(14):175. CAO Bing, WANG Meng, YANG Kaijin, et al. Preparation of P(AA-AM)/SiO2 composite water retention materials and its application in water-retaining slow-release fertilizer[J]. Transactions of the CSAE, 2020, 36(14):175.
[9]	RASHIDZADEH A, OLAD A, REYHANITABR A. Hydrogel/clinoptilolite nanocomposite-coated fertilizer: Swelling water-retention and slow-release fertilizer properties[J]. Polymer Bulletin, 2015, 72(10):2667.
[10]	王龙宇, 华元刚, 刘海林, 等. 保水缓释氮肥在海南砖红壤中的保水缓释效果研究[J]. 热带作物学报, 2015, 36(5): 854. WANG Longyu, HUA Yuangang, LIU Hailin, et al. Study on water-retention and sustained release effects of water-absorbent slow release nitrogen fertilizer in latosol of Hainan[J]. Chinese Journal of Tropical Crops, 2015, 36(5): 854.
[11]	王国贺, 王趁义, 郝琦玮, 等. SA-P(AA/AMPS)-高岭土耐盐性高吸水性树脂的制备及性能研究[J]. 化工新型材料, 2021, 49(11): 183. WANG Guohe, WANG Chenyi, HAO Qiwei, et al. Study on preparation and properties of SA-P(AA/AMPS)-kaolin salt-resistant super absorbent resin[J]. New Chemical Materials, 2021, 49(11): 183.
[12]	郑卫红, 潘国祥, 陈伽, 等. 非金属矿物-EC复合包膜尿素缓释肥制备与释放特征[J]. 矿物学报, 2016, 36(2): 247. ZHENG Weihong, PAN Guoxiang, CHEN Jia, et al. Study on preparation and slow-release properties of coated urea fertilizer by using non-metallic minerals and ethyicellulose[J]. Acta Mineralogica Sinica, 2016, 36(2): 247.
[13]	刘莉, 杨尽, 苏小丽. 粉煤灰在土壤改良中的机理研究[J]. 安徽农业科学, 2010,38(31): 17512. LIU Li, YANG Jin, SU Xiaoli. Mechanism research of fly ash in soil improvement[J]. Journal of Anhui Agricultural Sciences, 2010,38(31): 17512.
[14]	张瑞庆. 不同改良剂对宅基地复垦耕地土壤性状及作物生长的影响[D]. 陕西杨凌:西北农林科技大学,2019: 15. ZHANG Ruiqing. Effects of different ameliorants on soil traits and crop growth in the reclamation of arable land in a residential site[D]. Yangling, Shaanxi: Northwest A & F University, 2019: 15.
[15]	邓小楠. 环保型薄膜材料及包膜肥料制备与释放性能研究[D]. 合肥: 合肥工业大学, 2019: 37. DENG Xiaonan. Preparation and release properties of enviroment friendly membrane materials and coated fertilizer[D]. Hefei: Hefei Polytechnic University, 2019: 37.
[16]	王赫. 基于埃洛石的复合保水缓释肥料的制备及表征[D]. 郑州:河南工业大学, 2019: 14. WANG He. Preparation and characterization of a composite water retaining sustained release fertilizer based on halloysite[D]. Zhengzhou: Henan University of Technology, 2019:14.
[17]	HE Yanhui, WU Zhansheng, TU Liang, et al. Encapsulation and characterization of slow-release microbial fertilizer from the composites of bentonite and alginate[J]. Applied Clay Science, 2015, 109/110: 68.
[18]	吕娟, 任永志, 王明峰, 等. 淀粉胶生物质炭基氮肥制备及其缓释特性分析[J]. 农机化研究, 2019, 41(6):175. LÜ Juan, REN Yongzhi, WANG Mingfeng, et al. Biochar based nitrogen fertilizer preparation with starch as adhesive and its release property analysis[J]. Journal of Agricultural Mechanization Research, 2019, 41(6): 175.
[19]	杨建高. 植物油类增塑剂替代邻苯二甲酸酯类增塑剂用于丁腈橡胶化合物[J]. 聚合物与助剂, 2016(4):19. YANG Jiangao. Substitution of vegetable oil based plasticizers for phthalate based plasticizers for nitrile rubber compounds[J]. Polymer ＆ Additives, 2016(4): 19.
[20]	魏亚魁, 韩相恩, 魏贤勇, 等. 新型环保型增塑剂柠檬酸三丁酯合成的研究进展[J]. 化工新型材料, 2011(2):23. WEI Yakui, HAN Xiangen, WEI Xianyong, et al. Reach progress of catalytic synthesis of new green plasticizer tributyl citrate[J]. New Chemical Materials, 2011(2): 23.