Chemistry
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Item Assessment of the Conversion of Luffa cylindrical Seed Oil into Biodiesel using CaO/Metakaolin as Heterogenous Catalyst(IBBUL, 2021) Bisiriyu, M. T.; Salau, R. B.; Abdulkarim, A. M.; Likita, S.; Abdullahi, Z.; Paiko, Y. B.The efficiency of calcium oxide supported metakaolin catalyst in the transesterification of Luffa cylindrical seed oil into biodiesel was studied using standard analytical techniques. Some physicochemical properties of the seed oil were determined and the fuel quality parameters of its fatty acid methyl ester (Biodiesel) were investigated. The results obtained were: colour (reddish-brown), yield (39.23 %), specific gravity (0.90 g/cm3), kinematic viscosity (17.23 mm2/s), pH (4.72), refractive index (1.466), acid value (22.58 mgKOH/g), free fatty acid (11.29 mgKOH/g), saponification value (115.005 mgKOH/g), iodine value (39.300 mgI2/100 g) while the biodiesel properties were: colour (reddishbrown), biodiesel yield (92.29 %), API gravity (22o), refractive index (1.470), specific gravity (0.880g/cm3), kinematic viscosity (5.62 mm2/s), acid value (4.21 mgKOH/g), cloud point (7 oC), pour point (4 oC) and flash point (170 oC). The values obtained indicates that the oil may not be suitable for edible purposes due to high acid value but may be employed industrially in the manufacturing of products such as liquid soaps, paints, shampoos and biodiesel. CaO/Kaolin catalyst was found to be effective in the transesterification of the seed oil and the fatty acid methyl ester (FAMEs) produced was also found to meet most of the standards for biodiesel set by ASTM (American Society for Testing and Materials) and EN (European Norm).Item COMPARATIVE ANALYSIS OF FRESH AND USED POWER TRANSFORMER OILS(2021) Abdulkarim A. M.; Umar, M. T.; Muhammad, M. A.; Bisiriyu, M. T.; Muhammad, H. I.; Agwuncha, S. C.; Kasim, N. A.Uninterrupted electricity supply is a vital issue for Nigeria today. This is because the reliability for power transformer to generate electricity to be used for industrial activities, electric utility companies and our homes has become far more important to our present generation for financial reasons. This work presents experimental research on the variations of the physicochemical properties and composition of two transformer oils of different levels of degradation. The first one is a virgin/fresh new oil while the second was collected from an operating transformer after being used for five (5) years (used transformer oil). The physicochemical characteristics of both samples were studied using American Society for Testing Material (ASTM) standard test, and were found to be within the specified range by ASTM standard. Results for physicochemical characterization of both samples A and B gives acid value of 0.045 ± 0.089 & 0.12 ±0.07 (mg KOH-1), density of 0.75 ±0.01 & 0.99 ± 0.01 (g cm–1), and Flash Point of 143 and 152 (oC) values respectively. However, the used oil sample presents physicochemical properties of narrow value to standard specifications which indicated its high level of degradation in contrast to the fresh oil sample. The FTIR results of the two samples were compared and it revealed that they have similar compounds of paraffins, naphthene and aromatics present in them. Although the used oil indicated the presence of phenols, which is indicative of oxidation process occurring in the oil.Item Production of biodiesel from Balanite aegyptiaca seed oil using chemical-activated catalyst produced from coconut shell(Nigerian Research Journal of Chemical Sciences, 2024) Alheri, A.; Ago, M. A; Jamila, U. A.; Anyanwu, S. K.,; Bisiriyu, M. T.; Aisha, K. UHeterogeneous catalyst produced from coconut waste shell (CWS) via chemical activation was utilized for biodiesel production from Balanite aegyptiaca seed oil. The effects of impregnation ratios (2 – 10 g/cm3), activation temperatures (500 – 900 oC) and time (1 – 3 h) on the yield of catalyst were investigated. The chemical-activated catalyst produced from coconut shell was characterized by Scanning Electron Microscopy (SEM) and Fourier Transform Infra-Red (FT-IR) spectroscopy. The biodiesel was further characterized using GC-MS. The heterogeneous catalyst produced by chemical activation under the following optimum conditions: activation temperature (800 oC), impregnation ratio (3:6g/cm3), and reaction time (1 h) was of high yield. SEM images showed a highly porous characteristic, with lots of cavities and strands on the surface. The optimum conditions to achieve maximum yield of the biodiesel (82.9%) were reaction temperature (40 oC), methanol/oil molar ratios (9:1 cm3), catalyst concentration (1.0 g/cm3) and reaction time (60 min). The fuel properties of biodiesel produced by chemical activation catalyst were: kinematic viscosity (5.70 mm2/s), specific gravity (0.86), pour point (9 oC), flash point (185 oC), cloud point (9 oC), colour 1.0 and cetane number 62. The GC-MS analysis demonstrated the presence of decanoic acid methyl ester, hexadecanoic acid, methyl ester, 4-hexenoic acid methyl ester and pentadecanoic acid methyl ester. The study showed that chemically produced heterogeneous catalyst from coconut waste shell can be used for the production of biodiesel.Item Assessment of Foliose Epiphytic Lichen (Parmelia sulcata) as Bioindicators of Atmospheric Trace Metals Pollution in Lapai Metropolis, Niger State(Science View Journal, 2024-01) Ibrahim, M.; Tsafe, A. I.; Gungshik, J. R.; Abdulkarim, A. M.; Zhikpe, Y. B.; Bisiriyu, M. T.The levels of atmospheric trace metals were determined using foliose epiphytic lichens (Parmelia sulcata) samples collected in eight (8) different locations within the residential areas and two control locations outside the residential area of Lapai town in Lapai local government of Niger State. A stratified random sampling technique was adopted and the analysis of the samples with atomic absorption spectrophotometer (AAS) gives the concentration (mg/kg) range of the metals as follows; 1.123-7.837 for Fe, 4.579-6.62 for Pb, 0.210-2.152 for Cr, 0.491-1.171 g for Ni, 0.018-0.983 for Cd, 0.057-1.471 g Zn, 0.198-1.287 for Mn, and 0.098-2.583 for Cu but Selenium was not detected in all the samples. The levels of some of these metals were slightly higher than the recommended USEPA (1993) limits but lower than FEPA (1991) limits. However, the distribution of these metals was not uniform across the samples, though their level was still at the background and very low compared to the reports on similar studies from industrialized areas of South-south and South-west Nigeria and other European countries. The variation in concentration of these metals at p≤0.05 indicates their source is mainly anthropogenic in origin. Epiphytic lichens validate the cost-effectiveness of this method for evaluating, assessing, and identifying depositional sources of the metals in the environment. The study revealed the atmospheric trace metal concentration of the area under study to be at a threshold level and hence the environment is still very safe from atmospheric trace metal pollution.Item Assessment of Drinking Water Quality from Chanchaga Area, Minna, Niger State, Nigeria(Caliphate Journal of Science & Technology (CaJoST), 2020-05-30) Bisiriyu, Muhammad T.; Koleola, Abidemi A.; Kolo, Muhammad; Ibrahim, Mohammedhe accessibility to safe drinking water is essential to prevent water-borne diseases like diarrhoea and cholera; thus, this study assessed the quality of drinking water sources available to the inhabitants of the Chanchaga area, Minna, Niger State. A total of twelve water samples consisting of four boreholes, four wells, and four tap water, including one from Chanchaga water works were collected and analysed for some physicochemical parameters and heavy metals using standard procedures. The results showed that the average physicochemical properties of tap, well and borehole water samples respectively, were pH, 6.60, 6.62 and 6.67, turbidity 1.58, 3.42 and 3.15 NTU, total suspended solids, 0.03, 0.09 and 0.00 mg/L, total dissolved solids, 0.96, 4.68 and 1.14 mg/L, total solids, 0.99, 4.79 and 1.14mg/L, electrical conductivity, 158.25, 799.25 and 778.25 µЅ/cm, alkalinity, 13.50, 50.00, and 117.50 mg/L, chloride,18.75, 74.00 and 47.25mg/L, total hardness65.50, 227.75 and 149.50 mg/L, while the heavy metal concentrations in tap, borehole and well water samples were Cu, 0.02, 0.20 and 0.33 mg/L, Mn, not detected, 0.23 and 0.32, Pb was not detected in all the samples and Fe, 0.21, 3.10 and 2.12 mg/L respectively. All the parameters analysed were below the maximum permissible limits specified by WHO except the total hardness of well water and concentration of Fe in well and borehole water, which were above the maximum permissible limits. It can be concluded that the three sources of water at different locations in the study area are safe for human consumption at the time this research was conducted.Item Evaluation and Chemometric Analysis of the Mineral Profile of Locally Prepared Soups in Minna, Niger State, Nigeria(J. Chem Soc. Nigeria, 2020-02-07) Salau, R. B.; Bisiriyu, M. T.; Abdullahi, Zalihat; Andrew, Alheri; Aremu, M. O.; Olushola, I. O.; Mohammed, A. K.Minerals are an indispensable part of a complete diet for humans. This study was conducted to evaluate the presence of five of these minerals; three essential minerals (Sodium, Calcium, and Potassium), two trace minerals (Iron, and Copper) and a toxic metal (Lead) present in local soups in Minna, Niger State. The samples were purchased locally in triplicates from restaurants in Minna, Niger State. The soups were homogenised, weighed, dried, and then digested with proportionate combinations of HNO3, H2O2 and deionised water. The elements were determined using Atomic Absorption and Flame Emission Spectrophotometers. Microsoft Excel and MATLAB/PLS tool box software were used for Chemometrics analysis. Results indicate that Dahyen kubewa and Miyanya kuwa have prominent content of studied elements with relatively higher values, making them good sources of essential mineral elements. The average concentrations of Na, K, Ca, Cu and Fe were respectively found within the ranges of 6.12–6.14, 0.67- 8.68, 4.84-45.30, 0.00-0.008 and 0.06-0.014 mgg-1. The values of the element expressed per serving dishes of the samples were appreciable relative to recommended daily intakes. This implies that the foods can be relevant in the management of Mineral Deficiency Diseases (MDD). Fe and Cu were below the toxic limit, and lead was not detectable. The foods were found to be generally safe for consumption. Correlation analysis showed that Na and Ca or K, as well as Fe and Cu, have a high correlation. These elements, therefore, constitute the unique element signature of the local soups in Minna. The Hierarchical Cluster Analysis of the mineral content data revealed two close substitute food pairs: Miyan yakuwa and Danyen kubewa as well as Miyan kuka and Miyan karkashi. The result implies that in cases of unavailability or scarcity of one of the pairs, the other paired food can be consumed. The paired foods have equivalent mineral content. The Principal Component Analysis loading-score biplot indicated that Miyan yakuwa, Danyen kubewa. Miyan agushi and Miyan taushe are calcium, sodium, and potassium rich soups. The result also reveals that Jan miya is relatively rich in copper and iron..Miyan kuka and Miyan Karkashi particularly have lower concentration of elements.Item REDUCTION OF TOTAL ORGANIC CARBON AND BIOCHEMICAL OXYGEN DEMAND USING MODIFIED AND UNMODIFIED Hibiscus sabdiriffa AND Hibiscus esculentus STALKS: KINETIC AND ISOTHERM STUDY(Lapai Journal of Science and Technology, 2024) Anyanwu, S.K.; Sulaiman, M. I.; Tijani, J. O.; Suleiman, M.A.T.Item Production and Optimization of Sugar Apple Seed Oil,Asa Sustainable and Economically Viable Alternative toOther Commercial Oils(CONFERENCE ON AFRICAN DEVELOPMENT STRATEGIES, 2023) Alheri, A.; Ago, M. A.; Jamila, U. A.; Joshua, Y.; Anyanwu, S.K.; Nwakife, N. C.; Makanta, S.A.; Longbap, B. D.; Gani, J; Aisha, K. U.