空间-地球耦合与地球热容量的关系:尼日利亚Nsukka地区的案例研究

J. Yakubu, U. A. Onyeodi, L. O. Daniyan, A. Shuaibu, U. J. Abangwu
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引用次数: 0

摘要

太阳对地球的辐射是决定地球热平衡和热状态的唯一形式的入射辐射能。太阳辐射的变化是影响地球表面温度的唯一最重要的因素。本研究旨在探讨环境温度与土壤温度之间的关系,以确定空间-地球耦合的存在。为了实现这一目标,研究范围缩小到尼日利亚埃努古州Nsukka地区的气温和土壤温度之间的相关性。本研究使用的数据是位于Nsukka的尼日利亚环境气候观测计划(NECOP)站收集的两年的气温和土壤温度测量数据,该站点通过遥测技术实时同时进行气象和气候变量的基本测量,更新周期为5分钟。为了可视化所研究的两个变量之间的关系,土壤和空气温度与2011年和2012年每个月的时间、日和年范围一起绘制,使用Microsoft Excel、OriginPro 2018 64位和Python编程。从这项工作的发现来看,每天、每月和每年的空气和土壤温度变化模式描绘了一种相关模式。土壤温度随观测到的空气温度变化而波动,由于其导热性和热容的差异,增加了时间滞后(响应时间)。从这项工作中观察到,在Nsukka地区,这种时间滞后可达2至3小时。在冷却方面,也观察到空气温度的延迟,因为在每日循环中观察到土壤温度下降后大约一个小时空气温度冷却。
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Space-earth coupling with relation to earths thermal capacity: A case study for Nsukka Region, Nigeria
The radiation coming from the sun to the earth is the only form of incoming radiant energy that determines the heat balance and thermal regime of the earth. Variation of solar radiation is the single most important factor affecting the earth’s surface temperature. This study seeks to investigate the relationship between ambient temperature and soil temperature with a view to determine the existence of space-earth coupling. With a view to achieving this aim, the research was narrowed to the correlation between air temperature and soil temperature for the Nsukka area of Enugu State in Nigeria. The data used in this study was a two-year data of air temperature and soil temperature measurements collected by the Nigerian Environmental Climactic Observing Program (NECOP) station situated at Nsukka, which carried out simultaneous basic measurements of meteorological and climatological variables, in real time, through telemetry technology, with 5-min update cycles. In order to visualize the relationship between the two variables under study, the soil and air temperatures were co-plotted with time for each month of the year for 2011 and 2012, daily and annual range using Microsoft Excel, OriginPro 2018 64-Bit and Python Programming. From the findings of this work, the air and soil temperature variation patterns over each day, month, and year depict a pattern of correlation. The soil temperature fluctuated alongside the variations observed in air temperature with the addition of time lags (response time) due to difference in their thermal conductivities and heat capacities. This time lag was observed from this work to be up to 2 to 3 h for Nsukka region. On cooling, a delay was also observed in the air temperature, as the air temperature cools about an hour after the reduction in soil temperature was observed in a daily cycle.
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来源期刊
International Journal of Physical Sciences
International Journal of Physical Sciences 综合性期刊-综合性期刊
自引率
0.00%
发文量
4
审稿时长
24 months
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