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播量无级调节水稻精量排种装置设计与试验 被引量:16
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作者 王在满 黄逸春 +4 位作者 王宝龙 张明华 马曰鑫 可欣荣 罗锡文 《农业工程学报》 EI CAS CSCD 北大核心 2018年第11期9-16,共8页
为提高现有组合型孔式排种器对不同品种的播量适应性,满足不同地区、不同品种的播种量要求。该文在此排种器的基础上进行优化设计和试验研究。以瓢形形状可变容积型孔的排种轮结构为主体,对型孔的形状、最大截面、深度和体积进行数学模... 为提高现有组合型孔式排种器对不同品种的播量适应性,满足不同地区、不同品种的播种量要求。该文在此排种器的基础上进行优化设计和试验研究。以瓢形形状可变容积型孔的排种轮结构为主体,对型孔的形状、最大截面、深度和体积进行数学模型计算,确定在最小、中间、最大合成型孔位置的长轴尺寸分别为9.2、12.4和15.6 mm,截面积范围为71.31~154.58 mm^2,型孔容积大小调节范围为271.91~485.79 mm^3;在排种轮内部安装步进电机和控制电路,通过蓝牙控制每穴播量在3~10粒之间无级调节。选用常规粳稻秀水134、杂交粳稻花优14、常规籼稻黄华占和杂交籼稻晶两优1212四种具有代表性的直播稻品种,对无级调节型孔进行三因素四水平试验,试验结果表明:粳稻每穴粒数调节范围为5~10粒,籼稻每穴粒数调节范围为3~8粒,当型孔容积调节变化时,每穴排种粒数变化趋势明显,从而能达到播量无级调节的效果,满足不同品种每穴播种量3~10粒的设计目标;分析结果表明:水稻品种、型孔容积和排种轮转速3个因素对播量影响主次为型孔容积、水稻品种、排种轮转速。该文设计的播量无级调节水稻精量排种装置实现了不同水稻品种的播量无级调节作业,调节范围大,适应性较好,无级调节简便快速,具有较好的实际实用价值。 展开更多
关键词 农业机械 种子 控制 精量穴直播 播量 型孔调节 排种器
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Rock skeleton models and seismic porosity inversion 被引量:3
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作者 贺锡雷 贺振华 +2 位作者 王绪本 熊晓军 蒋炼 《Applied Geophysics》 SCIE CSCD 2012年第3期349-358,363,共11页
By substituting rock skeleton modulus expressions into Gassmann approximate fluid equation, we obtain a seismic porosity inversion equation. However, conventional rock skeleton models and their expressions are quite d... By substituting rock skeleton modulus expressions into Gassmann approximate fluid equation, we obtain a seismic porosity inversion equation. However, conventional rock skeleton models and their expressions are quite different from each other, resuling in different seismic porosity inversion equations, potentially leading to difficulties in correctly applying them and evaluating their results. In response to this, a uniform relation with two adjusting parameters suitable for all rock skeleton models is established from an analysis and comparison of various conventional rock skeleton models and their expressions including the Eshelby-Walsh, Pride, Geertsma, Nur, Keys-Xu, and Krief models. By giving the two adjusting parameters specific values, different rock skeleton models with specific physical characteristics can be generated. This allows us to select the most appropriate rock skeleton model based on geological and geophysical conditions, and to develop more wise seismic porosity inversion. As an example of using this method for hydrocarbon prediction and fluid identification, we apply this improved porosity inversion, associated with rock physical data and well log data, to the ZJ basin. Research shows that the existence of an abundant hydrocarbon reservoir is dependent on a moderate porosity range, which means we can use the results of seismic porosity inversion to identify oil reservoirs and dry or water-saturated reservoirs. The seismic inversion results are closely correspond to well log porosity curves in the ZJ area, indicating that the uniform relations and inversion methods proposed in this paper are reliable and effective. 展开更多
关键词 Rock physics rock skeleton models adjusting parameters seismic porosityinversion Gassmann's equation
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