1) dry island intensity
干岛强度
1.
The result showed that intensity of heat island and dry island maximized at 20:00 in summer and autumn with 6℃ heat island intensity as the highest, and 2℃ average, as well as with 30% dry island intensity as the highest, and 9% average.
选择了具有代表性的 4 个点,在春、夏、秋、冬分 8:00、14:00、20:00 三个时段进行了气温观测,得到热岛强度和干岛强度以晚上 20:00 最大,四季中以夏秋季节最大,获得最大热岛强度为 6℃,四季平均约为 2℃,最大的干岛强度为 30%,四季平均约为 9%。
2) heat island intensity
热岛强度
1.
The result showed that intensity of heat island and dry island maximized at 20:00 in summer and autumn with 6℃ heat island intensity as the highest, and 2℃ average, as well as with 30% dry island intensity as the highest, and 9% average.
选择了具有代表性的 4 个点,在春、夏、秋、冬分 8:00、14:00、20:00 三个时段进行了气温观测,得到热岛强度和干岛强度以晚上 20:00 最大,四季中以夏秋季节最大,获得最大热岛强度为 6℃,四季平均约为 2℃,最大的干岛强度为 30%,四季平均约为 9%。
2.
The annual mean heat island intensity in Shenzhen can be 2.
结果显示,深圳的城市热岛呈现出明显的多中心现象,全年热岛强度平均值高达2。
3) Intensity of urban heat island
热岛强度
1.
In this paper, it is studied to monitor the intensity of urban heat island with LANDSAT data.
利用TM卫星遥感数据的分析结果 ,根据地理相似准则 ,提出以相对亮温来表示热岛强度 ,并将此无量纲因子应用于比较不同城市同一季节的不同小区、或同一小区不同时期中的热岛强度的差异 ,以此探讨利用遥感技术监测城市热岛强度的可能性 。
4) heat-island intensity
热岛强度
1.
Results show that heat-island intensity(UHI) has evident variations on day,month and season scales.
分析2005年广州市市区和郊区的8个自动气象观测站气象资料得出,热岛强度(UH I)具有明显的日、月和季节变化。
2.
Results show that heat-island intensity(UHI)has evident variations on day,month and season scales.
分析2005年广州市市区和郊区的8个自动气象观测站气象资料得出,热岛强度(UHI)具有明显的日、月和季节变化。
3.
It shows that urban heat-island intensity(UHI) in Nanning City had evident variations on daily,monthly and seasonal scales.
分析了2003—2006年南宁市区和郊区的10个自动气象观测站气象资料,结果表明,南宁市区的热岛强度(UHI)具有明显的日、月和季节变化。
5) dry-tensile strength
干拉强度
6) disturbance intensity
干扰强度
1.
The results showed that with the increasing of human-induced disturbance intensity, the amounts of small soil particle (silt and clay) and large aggregate decreased, and the amounts of soil micro-aggregate and natural soil particle increased; soil porosity decreased in the surficial soil,especially, in which the large porosity significantly decreased;.
结果表明 ,随人为干扰强度的增加 ,土壤中细土 (粉粒、粘粒 )和大团聚体数量减少 ,小团聚体和原生土壤颗粒增加 ;土壤表层孔隙度减小 ,尤其是大孔隙明显减少 ;土壤有效水降低 ,持水供水能力减弱 ,渗透系数减小 。
2.
We want to know the quantitative relation of the disturbance intensity and the forest structure.
结果表明,人为干扰能在一定程度上增加香格里拉亚高山森林树种多样性,但随着人为干扰强度的增加,其树种多样性又逐渐降低,群落出现断层,森林资源量减少,进而发生逆行演替,危害了森林生态系统的良性循环。
补充资料:干态强度
分子式:
分子量:
CAS号:
性质:见湿态强度。
分子量:
CAS号:
性质:见湿态强度。
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