Empirical Study of Geo – Spatiotemporal Variation of a Tropical Diurnal Temperature Harmonic Characteristics on Hourly Time Integration (Published)
This work investigates the daily temperature variation as an important factor of the solar energy striking the earth’s surface each morning. Literature records that a shallow layer of air directly above the ground is heated by conduction and heat exchange between this shallow layer of warm air and cooler above is not sufficient enough. On regular days when the clouds are clear, air temperature vary by 770F (250C) from just above the ground to waist height. Incoming solar radiation exceed outgoing heat energy for many hours after noon and equilibrium is usually reached at mostly 91.40F (330C), observed as unusually very high. These characteristics are inferred by variety of different factors such as large bodies of water, soil type and cover, wind cloud cover/ water vapor, and moisture on the ground. The temperature variations are greatest very near the earth’s surface which was represented by time aided characteristics in this region of study. However, sunny days are found to typically have high records of diurnal temperature variations. Nonetheless, low lying humid area in the vicinity of study have the least of variations. This explains why the tropics used in this study have high temperatures of up to 1000F (380C) by 1.00pm on bright sunny days and have lows of 69.80F – 82.40F (210C – 280C) under raining situations.
Keywords: Geo–Spatiotemporal, Temperature, Temporal, Time integration
Thermal Effect of Gas Flaring Activities in Ogba-Egbema-Ndomi Community, Rivers State, Nigeria (Published)
This paper presents some negative environmental impact resulting from one of the gas flaring station in Ogba-Egbema-Ndomi Community, Rivers State, Nigeria. The variation of Surface temperature with distance from the gas flaring station in the study area was investigated. The result shows that Atmospheric Temperature Ta (oC) and Soil Temperature TS (oC) from the flare station to a distance of about at 1800m from the station were above the acceptable temperature convenient for plants and animals to grow well. The temperature tends to normalized at about 290C at about 2000m away from the flare point. Hence the inhabitance of Ogba-Egbema-Ndomi and environs are advised to start their farming activities from about 2000m away from the flare station located in their locality. This increase in temperature also has other negative effects on the inhabitants of the area
Keywords: Distance, Environmental impact, Gas flare, Inhabitants, Temperature