1) corn leaf residue
玉米叶片残体
1.
FTIR spectroscopy was directly applied to the monitoring of corn leaf residue (CLR) without extraction at various stages of composting.
结果表明,随着玉米叶片残体腐解的进行,羟基、酮羰基、甲基、亚甲基和次甲基的含量逐渐降低,甲氧基的含量增加。
3) undecomposed corn
玉米残体
1.
Effect of undecomposed corn on the physico-chemical properties of chernozem;
玉米残体培肥对黑钙土理化性质的影响
4) corn leaf
玉米叶片
1.
Morphology measure and 3D reconstruction of corn leaf based on machine vision;
基于立体视觉的玉米叶片形态测量与三维重建
2.
Through close observation and research on the morphological formation, as well as growth rules of corn leaf, and combined with some knowledge in agriculture the mathematic model for changes on morphology in corn leaf was brought forward.
为了更好地进行玉米叶片几何造型模拟,基于对玉米叶片形态建成过程的观测研究,首先提取了玉米叶片形态结构和形态建成过程的主要特征,然后构建了参数化的玉米叶片几何模型。
5) maize blades
玉米叶片
1.
The mathematical model of maize blades was established by analyzing the actually measured data.
本论文通过实际测定的玉米型态数据,采用数值分析方法进行数值模拟,建立了玉米叶片及植株形态的数学模型,并应用模型绘出了叶片主脉及边缘的三次样条拟合合成效果图。
6) corn leaves
玉米叶片
1.
The results showed that:(ⅰ)in a specific range of water stress ,peroxidase activity in corn leaves increased with the decline of soil water content,however,enzymatic activity decreased when the water stress was overwhelmed;(ⅱ)there was variation of enzymatic activity of corn leaves grown in dry red soil and ve.
结果表明 :①在一定的水分胁迫范围内 ,玉米叶片的过氧化物酶活性随着土壤含水量的降低而升高 ,但过度胁迫时 ,酶活性降低 ;②随着土壤含水量降低 ,燥土和变性土上生长的玉米叶片的酶活性的变化规律略有差异 ,这与二者的土壤物理性质有关 ;③施肥处理 [T (N 10 0mg+P2 O5170mg +K2 O 6 0mg/kg干土 ) ;Z (NPK +Zn10mg/kg干土 ) ;M (5 2 g干牛粪 /kg干土+NPK) ]和栽培方式对玉米叶片的酶活性有影
补充资料:筒体开启式叶片过滤机
分子式:
CAS号:
性质:在水平放置的压力容器中,装有圆形叶片。叶片与简体轴线呈垂直排列。简体分成两半,作成水平剖分。叶片悬挂在壳体上半部,每个叶片有阀门与外部总管相连。滤液通过阀门从总管排出。壳体上部装有窥孔,用以观察每个叶片的流动状况。壳体下半部向下翻转后,用反吹空气卸除滤渣。如湿式卸渣在每个叶片之间装置能纵向移动和摆动120°的喷嘴,从其中喷射高速水蒸气以清除滤饼。过滤面积为0.93~97m2。
CAS号:
性质:在水平放置的压力容器中,装有圆形叶片。叶片与简体轴线呈垂直排列。简体分成两半,作成水平剖分。叶片悬挂在壳体上半部,每个叶片有阀门与外部总管相连。滤液通过阀门从总管排出。壳体上部装有窥孔,用以观察每个叶片的流动状况。壳体下半部向下翻转后,用反吹空气卸除滤渣。如湿式卸渣在每个叶片之间装置能纵向移动和摆动120°的喷嘴,从其中喷射高速水蒸气以清除滤饼。过滤面积为0.93~97m2。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条