THE IMPACT OF ACCESS TO ELECTRICITY ON EDUCATION AND HEALTH SECTORS IN NIGERIA’S RURAL COMMUNITIES

This study examines the impact of access to electricity on health and education measured by increased number of hours to study and reduced indoor air pollution of rural communities in Nigeria. Primary data from twelve (12) rural communities that have benefited from rural electrification since 1997 in Oyo State, southwest, Nigeria was collected. Key empirical findings revealed that children study hour reduces with household access to grid electricity, it decreases by 8 percent. Expenditure on electricity significantly decreases children study hour by 12 percent. Electrification decreases the rate at which indoor air pollution reduces by 1.1 percent. Household electricity expenditure increases with reduction in indoor air pollution, it decreases the rate of air pollution by 1.6 percent. Better illumination due from access to modern electricity reduces indoor pollution by 1.2 percent. To enhance the electrification benefits, the adoption of the minigrid option is inevitable, which requires government commitment for sustainability. The off-grid solution, which is usually renewable solution, with strong supporting legislation is equally required for rural electrification strategy. The efficiency of the existing electricity system entails the implementation of the gas master plan, which is crucial in paving way for increasing supply reliability, coverage, and then higher social benefits

ACCESSING THE IMPACTS OF CONTEMPORARY DEVELOPMENT IN BIOFUEL ON AGRICULTURE, ENERGY AND DOMESTIC ECONOMY: EVIDENCE FROM NIGERIA

The recent volatility of the conventional energy output owning to fluctuations in the supply chain in the fossil fuel cum with its finite supply nature has necessitate the integration of biofuel into the global energy needs. Biofuel as a type of renewable energy has the ability to reduce global warming resulting from greenhouse gas (GHG) emissions, thus offers a relatively healthy energy option for both the consumers and producers in global space. This notwithstanding has some implications on agriculture and food security. This paper examined the impact of biofuels development on agriculture, energy infrastructure and domestic wellbeing in Nigeria. The study identified a potential rivalrous relationship in terms of space and cultivation mechanism when sustainability is in view. We reviewed existing policies and sustainability practices in other economies and concludes that Nigeria needs a deliberate effort aimed at developing institutional structures that will facilitate building and expansion of the biofuels sub-sector at the same time enhance rural livelihoo

Handling heat‐stable salts in post‐combustion CO₂ capture: A detailed survey

The generation of heat‐stable salts (HSSs) in alkanolamine solutions for CO2 capture processes, which is adapted for power plant technologies, exists irrespective of the class of amine solution used for the capture process. Their presence do not only trigger decrements in the CO2 absorption capacities of the solvents and contribute to further alkanolamine degradation, but also result in foaming and loss of solvents, which impacts system economics and threatens the environment. HSSs also promote the corrosiveness of the metallic structures of capture systems by lowering the pH and increasing the conductivity of the absorbent solutions. Overall, these effects substantially subvert the reliability and integrity of CO2 capture units. This survey affords sufficient background on the existence of HSSs by unraveling the flow process in a typical alkanolamine‐based CO2 capture unit with respect to their formation points and potential threats. Furthermore, the major HSSs removal and alkanolamine reclamation methodologies (electrodialysis, distillation, ion exchange, electromagnetic separation, and solvent extraction) were comprehensively explored. We believe that this review paper will benefit researchers across disciplines as we continue to explore new and complex solvent formulations to minimize the cost of CO2 capture while maximizing efficiency<br/