英语人>词典>汉英 : 含水量 的英文翻译,例句
含水量 的英文翻译、例句

含水量

词组短语
water content
更多网络例句与含水量相关的网络例句 [注:此内容来源于网络,仅供参考]

The first part discusses about the effects of the five factors:temperature,relative air moisture,rate of frass sifting,density of larvae,fodder water percentage to growth speed and survival rate of older mealworm (Tenebrio molitor L.) larvae through rotational composite design of quadratic regression. Two models were established to describe the effects of the five factors. The models showed that percentage of fodder water is the major factor that has effect on the growing speed of T. molitor larvae,and fodder water is the major factor on death rate. The models also show that temperature on growth speed,temperature and fodder have important effects on death rate,and the significant test showed they have significant difference on 1% or 5% level. From the two models,by frequency analysis,we can get the optimizing rearing condition,in which the mealworm larvae overweight 10% per day,temperature is 25-26 ,frass sifting rate is once 2-4 days,density of larvae is 0.61-0.79 g/cm2,fodder water is 33.27%-39.71%. And the rearing condition,in which total death rate of T.

第一部分:采用五因素二次正交旋转组合设计,以黄粉虫幼虫饲养过程中饲养温度(X_1)相对湿度(X_2)、虫粪筛除频率(X_3)、饲养密度(X_4)以及饲料含水量(X_5)五因素为参试因素,考查它们对黄粉虫高龄幼虫的生长及存活的影响,建立了以黄粉虫幼虫增重率及死亡率为目标函数的回归模型,并进行了简化: Y_增=127.5079+18.6559x_5+2.7894x_3x_4-2.3854x_3x_5-3.0594x_1~2+1.8241x_3~2-3.8559x_5~2 Y_死=1.7459+0.4108x_1+0.0975x_2+0.9025x_4+0.3442x_5+0.0834x_1~2+0.3060x_4~2-0.2623x_5~2 分析结果表明:影响黄粉虫幼虫生长后期增重及死亡的主要因素分别为饲料含水量和饲养密度;饲料含水量和温度对黄粉虫增重有着重要的影响,饲养密度、温度、饲料含水量对黄粉虫的死亡有着重要的影响,其影响均达1%或5%显著水平;黄粉虫幼虫后期日增重率大于10%的饲养条件为:温度26~27℃、筛粪频率2~4天/次、饲养密度0.61~0.79g/cm~2、饲料含水量33.27~39.71%。

However, the key environmental factors for the topsoil (0-20cm) organic carbon lability were vegetation coverage, 20-30cm belowground biomass, 0-10cm,10-20cm and 20-30cm underground soil moisture, soil organic matter, soil labile Potassium and soil total Nitrogen content.

影响表层土壤活性有机碳含量最关键的环境因子是地上生物量、0~10cm地下生物量、30~40cm地下生物量、20~30cm土壤含水量、0~20cm土壤容重、20~40cm土壤容重和土壤全N量;影响表层土壤有机碳活度最关键的环境因子则是植被盖度、20~30cm地下生物量、0~10cm土壤含水量、10~20cm土壤含水量、20~30cm土壤含水量、土壤有机质、土壤速效K和土壤全N量。

The results showed that in the four rehabilitated forests, the previous month's soil moisture content had stronger effects on the current month's soil moisture content in 0-40 cm and 20-40 cm layers, but had lesser effects on that in 0-10 cm layer. The soil moisture content in 20-40 cm layer was mainly affected by current month's precipitation, while that in 0-10 cm layer was mainly affected by current month's evaporation. The correlation coefficient between current month's precipitation and soil moisture content was the largest in pure Liquidambar formosana plantation, and the auto-interrelation coefficient of soil moisture content was larger in mixed forests than in pure L. formosana plantation.

结果表明:研究区各重建森林前一个月的土壤含水量对当月整个土壤剖面(0~40 cm)平均土壤含水量和当月20~40 cm土层土壤含水量具有较强影响,对当月0~10 cm土层土壤含水量的影响较小;研究区各重建森林20~40 cm土层土壤含水量主要受当月降水量的影响,0~10 cm土层土壤含水量主要受当月蒸发量的影响;在4种森林重建模式中,枫香纯林当月降水量与当月土壤含水量的相关系数最大,混交林模式土壤含水量的自相关系数大于纯林模式。

Effect of dehydration procedure Beads of Pavlova viridis were desiccated with four different procedures.Two dehydration rates were used, which are 0.9% water content/h and 10% water content/h.Resul-ts showed that slow dehydration is the best.

脱水程序的影响以绿色巴夫藻为研究对象,选择0.9%含水量/h和10%含水量/h两种脱水速度,分两步脱水,先脱水至70%含水量再脱水至最佳含水量

The relationships between germination of the teliospores of Tilletia conroversa Kühn and soil moisture were studied and it was found that the teliospores of TCK could germinate when the soil mass moisture content reached between 1%-28%(relative moisture capacity 3.75%-100%). The suitable moisture for teliospore germination was between 10%-25% of mass moisture capacity or 17.85%-89.3% of relative moisture capacity. The optimal soil relative moisture capacity was between 65%-75%. There was no difference among most TCK isolates tested at the same suitable soil moisture.

通过土壤湿度对小麦矮腥黑穗病菌( Tilletiacontronversa Kühn,TCK)萌发率的影响试验研究表明,其冬孢子在土壤质量含水量为1%~28%(相对含水量3.57%~100%)范围内均可萌发,其适宜萌发的土壤质量含水量范围为10%~25%(相对含水量17.85%~89.3%),最佳土壤相对含水量范围在65%~75%之间;不同分离物在相同土壤湿度培养下,多数分离物冬孢子的萌发率之间差异不显著。

Compared focal mild hypothermia group rats with normothermia group rats, the former's water content and AQP4 of 3h ICH group rats' cephalophyma periphery showed no visibly changed, 6h ICH group rats and 24h ICH group rats visibly decreased, 72h ICH group rats obviously decreased.

亚低温治疗组血肿周围脑组织含水量和AQP4与常温组相比,脑出血3h组之间脑组织含水量及AQP4表达没有明显差别,亚低温降温组脑出血后6h、24h、72h组脑组织含水量明显降低,AQP4在脑水肿区周围表达明显减少,尤其是在72h,可观察到脑组织含水量及AQP4表达显著降低。

The result of variance of analysis showed that the germination capacity of treatment in 15,18,19,23,24,were all higher than 85 percent.15 treatment was best from single direction of germination capacity and 18 and 23 were best both from germination capacity and sparing irrigation ,namely when holard was 20%-25%,irrigation was 60m~3/hm~2.(2) Pn showed single peak curve at different holard and irrigation.

不同土壤含水量及不同坐水量处理时,光合速率在整个生育时期呈单峰曲线变化,不同土壤含水量处理均在抽雄期达到最大值,土壤含水量较高时,光合速率较高,变化迅速,土壤含水量较低时,光合速率也较低,变化缓慢。

During thawing period, its soil water changes as season changes (the dynamic rule of soil water has the important relation of the season): from June to July the quality-moisture content of soil water gradually increases and reaches the highest, and from July to August it begins to decreases. The range of the quality-moisture content of the ground litter and humus layer is lower than the illuvial horizon whose quality-moisture content is gradually increasing in this thawing season.

在土壤冻土融化期,草类落叶松林土壤水分存在明显的季节性变化,土壤枯枝落叶层、腐殖质层质量含水量比淀积层质量含水量变化幅度大;6~7月份土壤含水量逐渐增加,达到最高;8月份以后土壤含水量开始降低;土壤淀积层质量含水量保持逐渐上升趋势;坡顶土壤质量含水量明显小于坡底土壤质量含水量

The feasibility of the equipment to measure Tg of amorphous powder is verified with a lot of experimentl results.The Tgs of some typical starches such as corn, pachyrhizus, buckwheat and pea in different water content are obtained by TDA. It is found that the water has plastic effect on starch and the Tg of starch decreases with the increase of water content. Through this study a quantitative expression is established to relate Tg and water content, and it is testified with experimental results for the sticky rice starch with different water content.

采用热膨胀法测定不同含水量下玉米、地瓜、荞麦、豌豆淀粉的玻璃化转变温度,得到了随着含水量的增加Tg降低的关系,探讨了水的增塑作用及影响机理,得到含水量与Tg的定量表达式,并用糯米淀粉的实验值对该关联式的有效性进行了验证,为预测不同含水量的淀粉的玻璃化转变温度及对淀粉的储藏加工提供了理论依据。

Temporal and spatialcorrelation of Soil moisture under vertical direction was affected by some factor such asmeteorology, land use and fertilization measures. All siol moisture in different layers hastemporal and spatial correlation when soil moisture fluctuates of surface layer becausestability, but influence ability of each factor is not the same. For example, meteorologyhas most strong impact on temporal and spatial correlation of soil water content.

在气象条件较稳定的情况下,不同植被覆盖和不同施肥措施下各土层含水量之间都具有较强的时空相关性,随着气象条件波动加剧,各土层土壤含水量的时间相关性和空间相关性都降低;植被因素相对气象条件对各土层含水量的时间自相关性影响较小,而对各土层土壤含水量之间的空间相关性影响较大,裸地和农田各土层土壤含水量之间的空间相关性相对林地和草地较弱;不同的施肥水平都削弱了土壤各土层含水量的时空相关性。

更多网络解释与含水量相关的网络解释 [注:此内容来源于网络,仅供参考]

moisture content:含水量

培养土添加到穴盆前所需的含水量(Moisture content)e) 乙烯(Ethylene)1. 穴格(Plug cell) 形状和高度对育苗的影响通气性与栽培容器的高度有很大关系,特别是小容量的栽培容器,例如穴盆的穴格(Plug Cell)或者是小花盆. 栽培容器越高,

ammoniated glycyrrhizin:(充)氨甘草,含水量氨甘草甜素

achlorhydria胃盐酸缺乏 | ammoniated glycyrrhizin(充)氨甘草,含水量氨甘草甜素 | ammonium glycyrrhizinate甘草酸铵

microwave moisture apparatus:微波含水量仪

micro-texture 微观组织 | microwave moisture apparatus 微波含水量仪 | microwave oven drying method 微波炉烘乾法

water content:含水量

含水量(Water Content)就是指镜片的水分比例. 我们一般认为,含水量越高,镜片带著就会越舒服,事实其实不是这样哦!

water content:含水量; 湿度

water conservation水源保护 | water content含水量;湿度 | water cycle水循环;水分循环

optimum water content:最优含水量

31.maximum dry density最大干密度 | 32.optimum water content最优含水量 | 33.three phase diagram三相图

optimum water content:土的物理性质最优含水量

土的物理性质最大干密度maximum dry density | 土的物理性质最优含水量optimum water content | 渗透性和渗流达西定律Darcy s law

optimum water content:最佳含水量

最高行驶速度测定|maximum travelling speed measurement | 最佳含水量|optimum water content | 最佳级配|optimum gradation

original water content:原先含水量

original tenancy 原租赁 | original water content 原先含水量 | ornamental plant 观赏植物

field capacity:土壤毛细含水量

field book 野外纪录簿 | field capacity 土壤毛细含水量 | field carrying capacity 土壤毛细含水量