Civil Engineering

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Civil Engineering

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Author: search.filters.author.Asogwa E.O

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    Performance Evaluation of Moringa oleifera as a Coagulant for Abattoir Wastewater Treatment
    (ADVANCES IN AGRICULTURAL AND FOOD RESEARCH JOURNAL, 2024-04-30) Asogwa E.O; Adesiji A.R; Musa H; Odekunle M.O; Adeyemo G.B; Tanimu Y; Mangey J.A
    The public's health and surface water are adversely affected by the improper disposal of abattoir wastewater. In this study, 40 litres of abattoir effluent was treated for ten (10) weeks using raw, powdered Moringa oleifera seeds as a coagulant. Processed M. oleifera seeds in loading quantities of 10, 12, 14, 16, 18 and 20 g were used in a completely randomised design (CRD) for the treatment. There was also a control (abattoir effluent not treated with M. oleifera). Before and after treatment, the physical and chemical characteristics of abattoir wastewater were examined. The results demonstrated that the treatments significantly lowered the turbidity value, which fell from 15.40 mg/L to 7.63 mg/L for a 16 g dosage in week 7. For the 20 g treatment in the first week, total alkalinity decreased from 216.67 mg/L to the lowest value of 63.67 mg/L. An amount of 14 g of M. oleifera lowered both the total hardness from 116.33 mg/L to 78.40 mg/L and conductivity from 1395.7 mg/L to 520 mg/L within the first week of the experiment. From weeks 2 to 6, the biological oxygen demand (BOD) was discovered to be nil. For the 14 g treatment, the Calcium value decreased from 31.47 mg/L in the first week to 6.23 mg/L in the fifth week. The results generally demonstrated that 16 g/500 mL of M. oleifera was capable of treating abattoir effluent, confirming its capacity to coagulate for the treatment of such waste. The study's extract doses did not affect the colour or smell of the treated wastewater. The results have generally highlighted that the natural coagulants could be successfully used for the removal of turbidity, faecal bacteria and all unwanted concentrations of heavy metals including zinc from abattoir wastewater.
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    EFFECT OF CHEMICAL FERTILIZERS ON GROUNDWATER QUALITY IN AN UNCONFINED AQUIFER
    (ARID ZONE JOURNAL OF ENGINEERING, TECHNOLOGY & ENVIRONMENT, 2023-01-14) Asogwa E.O; Adesiji A.R; Jimoh O.D; Adeoye P.A; Odofin A.J; Mangey J.A; Odekunle O.M
    The use of fertilizer on soil to improve agricultural yield has been practiced for years. While fertilizers and manures greatly improve crop yield, it is also important to consider their corresponding and devastating effects. In this study, the fertilizers application rate was varied and their effects on groundwater quality with soil depths of 30 cm and 60 cm were observed. Two fabricated lysimeters were used to collect soil samples undisturbed and taken to the laboratory for analyses. The samples in the lysimeters were made saturated and varying quantities of fertilizers from 87.37 g, 100 g. and 120 g were applied. The saturation of the samples was done through an improvised rainfall simulator which was set up in such a way that a constant discharge was adopted. Water samples were collected at 30 cm and 60 cm depths and analyzed for fertilizer residues and physico-chemical characteristics such as temperature, pH, total chloride, total dissolved solids, dissolved oxygen, conductivity, free ammonia, total phosphate, urea, zinc and iron were also analysed. The results showed that the more the quantities of fertilizers applied on the soil, the more it affects the physico-chemical properties of the water and renders it toxic and unsuitable for drinking purposes except treated. The results, however revealed that the concentrations of the fertilizers in the groundwater decreases with soil depths. It is therefore recommended that any groundwater being explored for domestic use close to soil surface in areas prone to fertilizer pollution should be well treated before consumption, most especially for people using shallow wells.
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    Management Of Hazards And Prevention Of Accidents And Injuries In Building Construction Using ‘Hierarchy Of Controls And Safety Education
    (International Journal of Progressive Sciences and Technologies (IJPSAT), 2022-06-30) Asogwa E.O; Asogwa E.U; Blavo J
    Studies have shown that rates of accidents and injuries in building construction industry are generally high due to the fact that virtually all building construction sites are faced with unsafe conditions, especially in developing countries, exposing construction workers and users of such constructed structures to a wide range of hazards and dangers. Lack of adequacy of safety practices in building construction is evident in the numbers of building collapses and fatalities, injuries and damages reported in building construction industry in developing countries. However, most building construction accidents and injuries can be prevented, reduced or eliminated with an effective hazard control system in place, and the right safety education and practices among all stakeholders in building construction. This paper, therefore, discusses using the hierarchy of controls and safety education to control hazards and prevent accidents and injuries in building construction.
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    ANALYSIS OF ADSORPTION PERFORMANCE OF LATERITIC SOIL GEO-POLYMER COMPOSITE DEVELOPED AS A BARRIER IN A SANITARY LANDFILL
    (Nigerian Journal of Engineering Science and Technology Research, 2024-07-29) Asogwa E.O; Adie D.B; Ibrahim F.B; Amadi A.A; Mangey J.A; Sabo B
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    ASSESSMENT OF PHYSICO-CHEMICAL CHARACTERISTICS OF LEACHATE CONTAMINATED LATERITIC SOIL
    (Nigerian Journal of Engineering Science and Technology Research, 2023-04-29) Asogwa E.O; Sabo B; Agbonselobho M.O; Agbese E.O; Haruna S.I; Mangey J.A
    This research studied the physico-chemical characteristics of leachate contaminated soil. Leachate is known as an important source of environmental pollution, more especially groundwater, pollution due to the presence of organic and inorganic substances, including heavy metals. Leachate is a major problem for municipal solid waste landfills and causes significant threat to surface water and groundwater. Leachate is generated by excess rainwater passing through the waste body. The pollutants from the waste material are transferred to the percolating water by the combination of physical, chemical and microbial processes. Leachate is characterized as water-based solution of four groups of pollutants; dissolved organic matter, heavy metals, inorganic macro components, and xenobiotic organic compounds. The physio and bio-chemical analysis: BOD, COD, pH, EC, total hardness, nitrite, chloride, calcium and heavy metals such as Pb, Fe, Zn, and Cu were determined. From the results obtained, pH increases with increase in percentage contamination, from pH of 5 at 0% contamination to 5.62 at 100% contamination and cation exchange capacity also increased from an initial value of 187.613mg/lat 0% to 200.575mg/l at 100% contamination. These results show that the dumpsite has slight effects on the adjacent stream and underlying soil. Therefore, the implementation of a properly designed leachate collection system to prevent future risk of continuous contamination of the underlying soil and groundwater is important.
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    Evaluating Haul Container System of Solid Waste Collection in Enugu Municipal
    (Journal of Mechanical and Civil Engineering (IOSR-JMCE), 2022-02-28) Asogwa E.O; Saidu M; Adesiji A.R; Asogwa E.U; Mangey J.A; Muhammad S.J
    Over the years, studies have shown that rapid population growth and the growth of urban centers result in the substantial increase in the amount of wastes generated hence the demand for a sustainable collection system.This research aims at evaluating haul container system of waste collection in Enugu Municipal which comprises 10 zones with the view of determining the zone with higher efficiency and better cost. The data for the research was obtained through the ten zone collection crews, questionnaires (through random sampling) and oral interview. The result indicates that there is problem of unregulated waste dumping, as a result of ineffective waste collection and inadequate number of waste bins in the said zones. The weekly operational cost of the haul system in the zones as obtained from the analysis carried out are N72,000, N71, 000, N66, 000, 62,000, N60, 000, N59,000 and N58, 000 for Emene, ( New Haven and Agbani Road), ( Independent layout and Coal Camp), GRA, (Trans-Ekulu and Ogui) Achara-Layou t andAbakpa respectively and the efficiency of the collection crew in the zones are also 88% , 83%, 78%, 73% and 68% for Abakpa, Achara- Layout , (Trans-Ekulu, GRA and Ogui Road), ( Independent layout and Coal Camp) and ( Agbani Road, New Haven and Emene) respectively. Therefore the haul container system of waste collection can be improved by provision of the required basic infrastructural amenities by Government through the waste management agency (ESWAMA).
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    Optimization Of The Adsorption Process In Landfill Barrier Using Response Surface Methodology (Rsm)
    (IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), 2024-04-17) Asogwa E.O; Adie D. B; Ibrahim F.B; Amadi. A.A; Saidu M; Adesiji A.R; Mangey J.A
    Response Surface Methodology was used to examine the percentage of heavy metal removal from a sanitary landfill site utilising a lateritic soil-geopolymer composite. By Using the model, the lateritic soil geopolymer composite's adsorption potential was enhanced. The applicability of the employed model to predict the adsorption state is supported and confirmed by the good agreement between the observed and anticipated values of the removal efficiency. The applied models showed that all three of the components examined had an impact on the removal of heavy metals from sanitary landfill liners, but that the effects of dosage and contact time were more pronounced and had a substantial impact on the removal % of heavy metals. With dosage and contact time proving to be the most relevant of the three independent variables, the ANOVA findings show that the model parameters are significant. After refining the replies, the following settings proved ideal: dosage of 10g, contact time of 48 hours, and temperature of 50 °C. These yielded percentage removals of lead, zinc, and copper of 97.88%, 94.36%, and 99.48%, sequentially. Keywords: Heavy Metals, Geopolymer, Landfill, Barrier, Optimization, Lateritic-soil, Response Surface Methodology (RSM)