Potential and economic viability of standalone hybrid systems for a rural community of Sokoto, North-west Nigeria

An assessment of the potential and economic viability of standalone hybrid systems for an off-grid rural community of Sokoto, North-west Nigeria was conducted. A specific electric load profile was developed to suite the community consisting 200 homes, a school and a community health center. The data obtained from the Nigeria Meteorological Department, Oshodi, Lagos (daily mean wind speeds, and daily global solar radiation for 24 years from 1987 to 2010) were used. An assessment of the design that will optimally meet the daily load demand with a loss of load probability (LOLP) of 0.01 was performed, considering 3 stand-alone applications of photovoltaic (PV), wind and diesel, and 3 hybrid designs of wind-PV, wind-diesel, and solar-diesel. The diesel standalone system (DSS) was taken as the basis of comparison as the experimental location has no connection to a distribution network. The HOMER® software optimizing tool was engaged following the feasibility analysis with the RETScreen software. The wind standalone system (WSS) was found to be the optimal means of producing renewable electricity in terms of life cycle cost as well as levelised cost of producing energy at $0.15/(kW$h). This is competitive with grid electricity, which is presently at a cost of approximately $0.09/(kW$h) and 410% better than the conventional DSS at a levelized cost of energy (LCOE) of $0.62/kWh. The WSS is proposed for communities around the study site

Feasibility and techno-economic assessment of stand-alone and hybrid RE for rural electrification in selected sites of south eastern Nigeria

The study assessed the feasibility and economic viability of solar and wind energy resources as sustainable electrical source for rural communities unconnected to the grid. Rural communities made up of 200 homes, a school and health centre were conceived. Specific electric load profile of 358 kWh per day, with 46 kW primary peak load and 20 kW deferrable peak load, was formulated to match the rural communities. The assessment of the design that will optimally meet the daily load demand with a loss of load probability of 0.01 was carried out by considering three stand-alone applications of photovoltaic (PV), wind, diesel, and a hybrid design of wind-PV. The result showed that a cost-effective alternative for power generation at the different sites surpassed the conventional diesel stand-alone system. Also, the embedded generation analysis showed that 5 of the 6 configurations yielded profits for a 10-year project life in line with the present national tariff orde

Techno-Economic Assessment of Renewable Electricity for Rural Electrification and IT Applications in Selected Sites Across the Geopolitical Zones of Nigeria

This study presents an energy resource assessment for six sites, one from each geo-political zone of Nigeria. It assessed the feasibility and economic viability of RE resources that can provide sustainable electricity and enhance ICT development for rural communities cut off from the national grid. Hypothetical rural communities made up of 200 homes, a school and health centre was conceived. Specific electrical load profile was developed to suite the rural communities. The required load was analyzed as 358 kWh per day, with 46 kW primary peak load and 20 kW deferrable peak load. The meteorological data utilized were obtained from the Nigeria Meteorological Department spanning 1987- 2010. Assessment of the design that will optimally meet the daily load demand with LOLP of 0.01 was carried out by considering standalone PV, Wind and Diesel, and a hybrid design of Wind-PV. The Diesel Standalone system was taken as the basis for comparison. The optimization tool employed after the feasibility analysis with RETScreen® software was the HOMER® software. The outcome showed that the most economically viable alternative for power generation at most of the sites is the wind standalone system. It proved to be the optimal means of producing renewable electricity in terms of life cycle cost and levelised cost of energy which ranged between $0.129/kWh for Jos and$0.327/kWh for Benin City. This is very much competitive with grid electricity. Renewable technologies could then become the subject of rigorous pursuit for rural electrification and ICT development in local communities around the sites

Modeling and Analysis of Fouling Behaviour in Plate and Frame Heat Exchanger

The fouling of heat exchangers in the oil and gas industry is not only a recurring challenge in refineries but it is also becoming a challenge in crude oil production and treatment facilities where heat exchangers are deployed to cool the crude oil temperature downstream of stabilization system prior to storage. A predictive mitigation approach to addressing fouling in heat exchangers remains the most viable option to avoid production train capacity limitations, unplanned shutdown and attendant loss of revenue. Considerable researches have been carried out which lead to the development of models used for predicting fouling resistances in shell and tube heat exchangers. However, this study focused on evaluation of the performance of a plate and frame heat exchanger utilized in cooling of crude oil prior to storage in a cargo tank for export. It also developed a fouling resistance suitable for forecasting the exchanger performance and predicting the maintenance management scheme. The data employed were continuously measured for three years and employed for the analysis.  It found that the lower the hot stream approach temperature, the more the fouling resistance. In addition, the work validates that as the fouling resistance increases with time, the efficiency of the plate and frame heat exchanger diminishes

Feasibility and Econometrics Assessment of Standalone and Hybrid RE Facilities for Rural Community Utilization and Embedded Generation in North-West, Nigeria

This study assessed the feasibility and economic viability of renewable energy resources for power generation at rural communities of six sites in North-West Nigeria. A specific electric load profile was developed to suite the rural communities made up of 200 homes, a school and health centre. The required load was analysed as 358 kWh per day, with 46 kW primary peak load and 20 kW deferrable peak load. The employed data obtained from the Nigeria Meteorological Department, were those of daily mean wind speeds, daily global solar radiation, sunshine hours, minimum and maximum air temperature, and minimum and maximum relative humidity for 24 years spanning 1987-2010. The assessment of the design that will optimally meet the daily load demand with LOLP of 0.01 was carried out by considering 3 standalone applications of PV, Wind and Diesel, and a hybrid design of Wind-PV. The outcome showed that the most economically viable alternative for power generation at the different locations in Gusau, Kaduna and Yelwa was the hybrid system while wind standalone suffices for the other sites. The values of LCOE for the both the hybrid and standalone wind system are competitive with grid electricit