355 research outputs found
Effects of Pouring Temperature on Solidification Using Energy Profile Analysis on Aluminum Alloy
This work covered the study of energy profiles as influenced by solidification on sand cast 6063
aluminum alloy. Temperature is an important parameter, most especially in foundry technology that
influences properties and morphology of cast products. Different pouring temperatures of 680oC, 740oC
and 780oC were considered. Mechanical energy expended and the quantity of heat evolved was
evaluated from results obtained from tensile test experiments carried on the three samples. Relationship
between change in coefficient of thermal expansion and change in applied tensile load were derived; it
was observed that the maximum energy expended before fracture for samples decreased with increasing
pouring temperature. Increasing pouring temperature decreased the amount of energy to be expended
during deformation. This also influenced the change in heat evolved per time
Thermodynamics Characterization of Density models for an Effective Solar Water Heater Sizing
The problem faced in Sizing of an effective Solar Water Heater (SWH) by engineers to meet certain design
requirement is highly enormous. Using the thermodynamic characterization relation and the knowledge of
Solar Water Heater (SWH) density’s model; various design were evaluated. The result shows that density
model actually predicts adequately and providing alternative means of estimating these design parameters.
Also, the properties of the system, such as entropy and enthalpy (specific heat capacities), which cannot be
determined directly from experimental axiom, were evaluated. These evaluations therefore, give room to
express the thermodynamics properties of the system and consequently improve the design performance.
Further comparisons with experimental results reveal a better outfit. Therefore through the knowledge of
thermodynamic relation an efficient Solar Water Heater is operated and empirical data is expanded
Dynamic Crystallization: An Influence on Degree of Prior Deformation and Mechanical Strength of 6063 Aluminum Alloy
This research is aimed at investigating the influence dynamic solidification of melts on degree of mechanical deformation and mechanical strength of 6063 aluminum alloy. Cylindrical samples of 14mm diameter and 140mm long were die cast following two techniques – vibration and static. Prior deformation via forging was imposed on each solidified sample to achieve 7%, 14%, 21% and 28% thickness reductions respectively for each casting technique. Average deformation load, average hammer velocities and the average energy absorbed were recorded. Tensile properties of each sample were studied via the use of Monsanto tensometer. Mechanical agitation of mould and its content increased the machinability of the alloy even at higer pre deformation. This was justified by the failure of the 28% reduction sample cast on static floor during machining to a tensile piece. The energy absorbed during deformation influences the tensile strength of the material. This increases with increase in percentage deformation except for 28% reduction whose magnitude was lower than that subjected to 21% reduction; vibrated samples possessed superior properties. From results obtained, vibrating a sample and subjecting to 21% pre-deformation possessed the best tensile strength
Carbondioxide Electricity Generation Prospect in Nigeria
The need to meet up with the present energy demand in Nigeria calls for urgent mediation. Using the
carbon dioxide data obtained from IEA through the ministry of Environment in Nigeria and the knowledge
of bottoming power generation; the ability of Carbon dioxides exhaust gas from the power plant is
exploited. Qualitative amount of power is estimated from the nation industrial Carbon dioxide potential
generation. The result shows that an optimum amount of 564.7MW of electricity per year could be
estimated from this power source; this is equivalent to 10.8% of projected power required for year 2030.
Therefore, using Carbon dioxide hybrid turbine a total amount of 1265MW of electricity could be spawned
by year 2030. With these results it is concluded that Carbon dioxides powered turbine has better prospects
in Nigeria energy needs.
1.0 Introduction
The electricity demand in Nigeria is far outstrips its supply, this has been attributed to a number of
causes Sambo, (2008). The little power available is epileptic in nature for few locations that is
distributed. Its enormous needs in technological and socio-economic developments called for urgent
attention; no substantial development could occur without it copiousness. Despites our huge resources and
potential for power generation, this defect has made the development in the country to be so retrogressive.
The fact that the first electricity installed in Nigeria is over a century, coupled with our potentials of
having a stable power supply is enough to possess a developed steady economics. More so, literature had it
that the electricity came to Nigeria just after fifteen years it was introduced in England.
According to Sambo, (2008) various bodies were established in the process of regimenting this sector
such blocs are; The Electricity Corporation of Nigeria (ECN) in 1950, Native Authorities and Nigeria
Electricity Supply Company (NESCO), Niger Dams Authority (NDA), National Electric Power Authority
(NEPA) and now Power Holding Company of Nigeria (PHCN), Energy Commission of Nigeria (ECN),
with all the policies of these established bodies the power generation in the country is yet to be upright. In
fact, Osueke and Ezeh, (2011) emphasized that instead for positive income elasticity demand Nigeria is
having negative which show an in balance energy
Furthermore, a capacity of about 5,600MW power generating station was installed in Nigeria but less
than 2000MW is generated as at 2001 and even now less than 2,600MW is available as compared to a load
demands of 6,000MW and 120000MW in 2005 and 2030 respectively IAEA/ECN, Osueke and Ezeh,
(2011), IAEA/ECN, (2007). The mandate given by act 19 in 1989 gave strategic planning and
co-ordination of national policies in the field of energy in all its ramifications. In all these power sources
31.3% and 68.3% Sambo, (2008) were for hydro and natural gas stations respectively and other occupied
the remaining percentages. In spite of all these efforts the available power in the country now is less than
3000MW of electricity and the most of this power stations and other heavy duties industries give out huge
emission of CO2, a green house gas, GHG, which has great effects on the environmental conduciveness.
Sims et al (2007) studied the various sources of green houses gases and found out that over 70% of energy
generation emit CO2 virtually in all parts of the world. Though most developed nations adopt different
methods to control these like capturing methods but scientist still envisaged that greater measure is required
to combat the release of this harmful gases. This means that all cost-effective means of reducing carbo
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 0.327/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
Detection of antibody-dependent complement mediated inactivation of both autologous and heterologous virus in primary HIV-1 infection
Specific CD8 T-cell responses to human immunodeficiency virus type 1 (HIV-1) are induced in primary infection and make an important contribution to the control of early viral replication. The importance of neutralizing antibodies in containing primary viremia is questioned because they usually arise much later. Nevertheless antienvelope antibodies develop simultaneously with, or even before, peak viremia. We determined whether such antibodies might control viremia by complement-mediated inactivation (CMI). In each of seven patients studied, antibodies capable of CMI appeared at or shortly after the peak in viremia, concomitantly with detection of virus-specific T-cell responses. The CMI was effective on both autologous and heterologous HIV-1 isolates. Activation of the classical pathway and direct viral lysis were at least partly responsible. Since immunoglobulin G (IgG)-antibodies triggered the CMI, specific memory B cells could also be induced by vaccination. Thus, consideration should be given to vaccination strategies that induce IgG antibodies capable of CMI
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