Design and Experiment of Layered Deep Fertilization Device of Different Fertilizers Based on Pneumatic Distribution

Northeast black soil region is an important commercial grain production base in China, which plays an important role in ensuring national food security and promoting national economic development. Protecting the security of arable land resources in the black soil region of Northeast China is of great significance to maintaining the bottom line of the strategy of “ basically self-sufficiency in grains and security of rations”. However, the black-soil cultivated land has begun to degenerate significantly, and soil fertility has been declining year by year. In addition, due to long-term over-cultivation, high- intensity output and lack of protective measures, some serious problems, including black soil layer became thinner, organic matter decreased sharply, and plow bottom thickened were observed. All the aforementioned problems seriously affected the sustainable development of agriculture in the black soil area in Northeast China, since the large-scale reclamation of black soil. Therefore, changing the farming system and transforming conventional reclamation into conservation tillage was the key to solve the degradation of cultivated land quality in the black soil areas of Northeast China. A layered deep fertilization device combining ordinary compound fertilizer and slow-release fertilizer application method was proposed according to the demand of no-tillage or less-tillage sowing and fertilization of corn in the black soil region of Northeast China. Moreover, the problems of single type of fertilizer applied and non- obviously effect of existing layered fertilization devices were resolved under layered deep fertilization approach. The structure and working parameters were obtained through theoretical analysis and parameter’ s calculation. Main factors affecting the fertilization performance of the layered deep fertilization device were analyzed and determined. The backward and downward tilt angle of the wing shovel, and forward speed of fertilization were selected as the test factors, and the amount of fertilizer deviation stability coefficient in each layer was taken as the test index. A quadratic-regression orthogonal combination simulation test was carried out by the coupling simulation method of discrete element method (DEM ) and computational fluid dynamics ( CFD). A regression model between test index and influencing factors was established. Through the fitting and optimization analysis of the results, it was obtained when the backward and downward tilt angle of the wing shovel and the speed of fertilization was 58. 11°, 52. 84°and 3.38 km/h, the corresponding fertilization amount deviation stability coefficient of the upper, middle and lower layers was 8. 50% , 6. 54% and 9. 10% , respectively. The layered deep fertilization device was processed with the optimized parameters and verified in field test. The results showed that field experiment had a similar tendency with the simulation test under the optimized parameters, which can meet the fertilization requirements.

 

Keywords: layered fertilization, corn, deep fertilization, optimization design, pneumatic distribution

 

ZHU Wenhao,LI Songsong,GAO Qiang,et al. Technical regulation for high efficiency utilization of phosphate fertilizer for spring maize in black soil area of Northeast China[J]. Phosphate & Compound Fertilizer,2021,36(2) :17 - 18,21. (in Chinese)

WANG Qitao,GUO Xiangyu,LIU Eryang. Farmers’ adoption behaviour of conservation tillage technology based on perceived value in the black soil region of Northeast China [ J]. Journal of China Agricultural University ,2021 ,26(7); 172 - 181. (in Chinese)

LIU X B,ZHANG X Y,WANG Y X,et al. Soil degradation; a problem threatening the sustainable development of agriculture in Northeast China [J]. Plant Soil and Environment,2010,56(2) ;87 -97.

ZOU Wenxiu,HAN Xiaozeng,LU Xinchun,et al. Effects of the construction of fertile and cultivated upland soil layer on soil fertility and maize yield in black soil region in Northeast China[J]. Chinese Journal of Applied Ecology,2020,31 (12) :4134 - 4146. (in Chinese)

HAN Xiaozeng,LI Na. Research progress of black soil in Northeast [ J ]. Scientia Geographica Sinica, 2018,38 ( 7 ) ; 1032-1041. (in Chinese)

BAO Qiping,HAN Xiaori,YIN Yuan,et al. Study on variation mechanism of nitrogen use efficiency of spring maize in Northeast China[J]. Soil and Fertilizer Sciences in China,2020(3) :36 -41. (in Chinese)

XIA Xunfeng,HU Hong. Utilization present situation of fertilizers in China and new type of fertilizers [ J ]. Technology & Development of Chemical Industry,2011,40( 11) ;45 -48. (in Chinese)

VELTHOF G,SCHOOTEN H V, D1JK W V. Optimization of the nutrient management of silage maize cropping systems in the Netherlands: a review [ J ]. Agronomy, 2020,10 (12) ; 1861.

OLFS H W. Organic fertilization in maize cropping systems: measures to reduce N losses [J]. Agronomy,2021 ,11(4) :793. FEDEROLF С P, WESTERSCHULTE M, OLFS H W,et al. Enhanced nutrient use efficiencies from liquid manure by positioned injection in maize cropping in Northwest Germany[J]. European Journal of Agronomy,2016(75) : 130 - 138.

ZHOU Baoyuan,SUN Xuefang,DING Zaisong,et al. Multisplit nitrogen application via drip irrigation improves maize grain yield and nitrogen use efficiency[ J ]. Crop Science,2017,57(3) : 1687 - 1703.

LIU Yujie,LIU Xiaoyan,LIU Mei. Effects of different fertilization methods on corn yield and fertilizer utilization[ J]. Modern Agriculture,2019( 1) :40 -43. (in Chinese)

LI Guanghao, CHENG Qian, LI Long,et al. N, P and К use efficiency and maize yield responses to fertilization modes and densities [ J]. Journal of Integrative Agriculture,2021 ,20( 1 ) :78 -86.

TIAN Shenzhong, WANG Yu,NING Tangyuan,et al. Continued no-till and subsoiling improved soil organic carbon and soil aggregation levels [ J]. Agronomy Journal, 2014, 106( 1) ; 212 -218.

ZHANG Ruifu,YANG Hengshan,GAO Julin,et al. Effect of subsoiling on root morphological and physiological characteristics of spring maize [ J ]. Transactions of the CSAE ,2015 ,31(5) :78 —84. (in Chinese)

Qiuping,HAN Yan. Effects of different fertilization methods on growth and yield of maize[ J]. Journal of Shanxi Agricultural Sciences, 2018 ,46 ( 10) : 1668 - 1670,1698. (in Chinese)

CHEN Congcong. Effects of layered fertilization on root growth of summer maize and the corresponding physical and biochemical properties of soil[ D]. Baoding: Hebei Agricultural University, 2018. (in Chinese)

ZOU Zhongjun,SUN Yanhua. A test on slow-release fertilizer one-time stratification application technique in maize [J]. Journal of Agriculture, 2011,1(6): 6-9. (in Chinese)

WANG Yunxia,LIANG Zhijie,CUI Tao,et al. Calibration method of contact characteristic parameters for corn seeds based on EDEM [ J/OL]. Transactions of the Chinese Society for Agricultural Engineering,2016,47( Supp. ) : 163 - 169.

MA Yang,WU Min, WANG Yanqun,et al. Effects of different tillage and fertilization methods on nitrogen utilization and soil bulk density of summer maize[J]. Journal of Soil and Water Conservation, 2019,33(5) : 171 — 176. (in Chinese)

HUANG Xingyuan. Design and experiment of a layered fertilization device for corn planter[ D]. Beijing; China Agricultural University,2018. (in Chinese)