Abstract
This paper gives a well-documented health risks of fuel-based lighting (kerosene lamps and fuel-powered generators) and proposed a design of a stand-alone solar PV system for sustainable home lightings in rural Nigerian area. The design was done in three different patterns of electricity consumptions with energy efficient lightings (EELs) using two different battery types (Rolls Surrette 6CS25PS and hoppecke 10 OpzS 1000) on; i) judicious power consumption, ii) normal power consumption, iii) excess power consumption; and compared them with the incandescent light bulb consumption. The stand-alone photovoltaic energy systems were designed to match the rural Nigerian sunlight and weather conditions to meet the required lightings of the household. The objective function and constraints for the design models were formulated and optimization procedure were used to demonstrate the best solution (reliability at the lowest lifecycle cost). Initial capital costs as well as annualized costs over 5, 10, 15, 20, and 25 years were quantified and documented. The design identified the most cost-effective and reliable solar and battery array among the patterns of electricity consumption with energy efficient lighting options (judicious power consumption, normal power consumption, and excess power consumption).
Highlights
Access to adequate, reliable, sustainable, and affordable modern energy services facilitates basic household comforts
It is known that more than 95% of deaths nationwide from fires and all types of burns occur in the rural areas where kerosene lamps are commonly used for lighting
Information from Scientific Advisory Panel (2013) shows that fuel-based generators are an important source of black carbon emissions in Nigeria where public power supply lags behind electricity demand
Summary
Reliable, sustainable, and affordable modern energy services facilitates basic household comforts. Information from Scientific Advisory Panel (2013) shows that fuel-based generators are an important source of black carbon emissions in Nigeria where public power supply lags behind electricity demand Both stand-alone generators and kerosene lamps are significant sources of particles of black carbon, a SLCP whose contribution to total carbon emissions is significant in rural areas of Nigeria. This is a growing concern to climate scientists in light of the widespread use of such generators for electrification in off-grid areas (Lam et al, 2012b; Scientific Advisory Panel, 2013). This means that regions, such as North-Central (Benue), Northeast (Borno), Northwest (Kano), South–South (Delta), and Southwest (Ekiti), have a mean daily solar irradiation >4.92 kWh/m2/day
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