Geo-Spatial Heat Index and Comfort Analysis of Port Harcourt City: An Approach to Environmental Health Care Delivery

Ajiere Suzan,Bridget Edewede Diagi,Nwaerema Peace

doi:10.30560/ls.v1n1p18

Ajiere Suzan, Bridget Edewede Diagi + Show 1 more

Open Access

https://doi.org/10.30560/ls.v1n1p18

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Abstract

This research examined the geo-spatial heat index and comfort analysis of Port Harcourt city as an approach to environmental health care delivery. Temperature data were generated from different land use types across days of the week in both wet (April to September) and dry (October to March) seasons. Heat index was derived when air temperature and dew point temperature of the locations were corresponded in the heat index chart or data logger calculator. Findings indicate that the city had experienced danger levels of discomfort above 41oC in the late dry season of January, February and March showing that heat cramps and heat exhaustion as well as heat stroke were probably to occur with continued activity of a person. On the other hand, early dry season of October, November and December had the best human comfort period of < 26.7oC temperature except Thursday and Friday with caution level of 27 to 32°C in the city of Port Harcourt; though fatigue was possible as prolonged exposure could result to heat cramps. High residential/commercial and administrative/industrial land uses had the highest human discomfort indicating that those living in these land use types would suffer extreme hazard of heat stroke. However, recreation and rural sites were the most comfortable land use types. Young children and old people are generally in more danger to the heat effects as the city has exceeded the 27oC thermal comfort threshold. It is therefore recommended that city planners and development practitioners should implement urban green policy of tree planting with special attention to residential/commercial and administrative/industrial areas without further delay in order to cushion the deadly menace of urban heat in Port Harcourt city and its environs.

Highlights

One of the greatest challenges facing cities across the world is rising temperature due to modification of biophysical components of the city surface areas by urban fabrics (Coseo and Larsen, 2014)
During the early wet season of April, May and June (Table 4), 75% of the period was within heat index caution level (27-32°C) and 24.3% (32-41°C) under extreme caution level indicating that heat cramps and heat exhaustion were possible
This study significantly demonstrates the geo-spatial heat index and human comfort analysis of Port Harcourt city as good approach to environmental health care delivery

Summary

Introduction

One of the greatest challenges facing cities across the world is rising temperature due to modification of biophysical components of the city surface areas by urban fabrics (Coseo and Larsen, 2014). UHI occurs when temperature in a city rises above that of the extended rural outskirts in the urban canopy (Yow, 2007). This temperature rise is as a result of rapid population and urbanization with the attendant UHI effect that is making several cities become very uncomfortable to live due to its impact on Heat Index (HI) and economy (Stewart, 2011; Stone, 2012). Heat index is the apparent temperature which measures how hot it really feels when dew point temperature or relative humidity is factored with the actual air temperature. The heat index expresses the level of comfort or stress provided by a given area (Ketterer and Matzarakis, 2014)

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