This study investigated the physicochemical properties and glycemic potential of two honey samples from Ikwuano (Umuahia) and Umuabiara Amii Akabo (Imo state). The research aimed to determine the sugar content, moisture content, pH, specific gravity, and glycemic load of the honey samples, providing valuable insights for consumers, particularly those with dietary restrictions or preferences. The results revealed significant differences in the physicochemical properties of the two honey samples. The moisture content of the Ikwuano honey was 29.5933%, while that of Umuabiara Amii Akabo was 30.4338%. The pH of Ikwuano honey was 4.28, indicating a slightly acidic nature, while that of Umuabiara Amii Akabo was 3.45, indicating a more acidic nature. The specific gravity of Ikwuano honey was 1.2680, while that of Umuabiara Amii Akabo was 1.2705, indicating a slight difference in density. The reducing sugar content was determined using lead acetate and potassium oxalate solutions, and the titration values for the Ikwuano honey and Umuabiara Amii Akabo honey were 22.0 and 19.0, respectively. The glucose content was also determined, and the glycemic load of the Ikwuano honey was found to be 46.12, while that of the Umuabiara Amii Akabo honey was 50.72.These findings suggest that the two honey samples have different glycemic potentials, with the Umuabiara Amii Akabo honey having a higher glycemic load. This information is crucial for individuals with dietary restrictions, such as those with diabetes, who need to monitor their sugar intake. Additionally, the study highlights the importance of analytical techniques in determining the quality and properties of honey samples.The research advances our understanding of the physicochemical properties and glycemic potential of honey samples from different regions, providing valuable insights for consumers, producers, and regulatory agencies. The study’s findings can inform the development of guidelines for honey production and labeling, ensuring that consumers have access to accurate information about the products they consume. Furthermore, the research contributes to the growing body of knowledge on the nutritional and health benefits of honey, highlighting its potential as a natural sweetener and functional food ingredient.

This research investigated the effect of temperature on coconut oil extraction using a solvent extraction method. The study aimed to optimize the extraction process and provide insights into the relationship between temperature and oil yield. The research employed a laboratory-scale solvent extraction method, where coconut oil was extracted from shredded coconut at different temperatures (30°C, 40°C, 50°C, 60°C, and 70°C). The yield of oil extracted was measured and calculated as a percentage of the initial weight of coconut used. The results showed a significant increase in oil yield with increasing temperature, with the highest yield obtained at 70°C. The yield increased from 26.29% at 30°C to 32.70% at 70°C, indicating a 24.5% increase. The study demonstrates the importance of temperature optimization in coconut oil extraction, providing valuable insights for the industry. The findings suggest that increasing the temperature to 70°C can result in a higher yield and improved extraction efficiency. This research contributes to the existing body of knowledge on coconut oil extraction, highlighting the potential for process optimization and improved productivity. The results have important implications for coconut oil manufacturers, providing a basis for the development of more efficient and effective extraction processes. Overall, this study demonstrates the significance of temperature optimization in coconut oil extraction, providing a foundation for future research and industrial applications.

Mild steels composed by two main elements, they are iron (Fe) and carbon (C) elements which is widely used in industry because of its resistance and more affordable in terms of cost than stainless steel, but their weakness is that they have low corrosion resistance. One way to modify mild steel is by coating them with antioxidant compounds that can delay, slow down, and prevent lipid oxidation process, which is obtained from(Chrysophyllum-Albidum) Udara seed extract. This research work is aimed at producing organic corrosion inhibitor from(Chrysophyllum-Albidum) Udara seed extract. Also, to utilize this organic corrosion inhibitor as a substitute for chemical corrosion inhibitors which contain toxic compounds, and determining the corrosion inhibition efficiency of the Udara seed extract in Hydrochloric acid medium. This was carried out by weighing the mild steel pieces. Udara seed extract was also weighed and added into each of the transparent glass bottles that was used in the experiment. However, 10.0g Udara seed powder was added into bottle 1 containing 0.5m of the dilute tetraoxosulphate (vi) acid. 20.0g to bottle 2, containing the same concentration of the acid. 30.0g to bottle 3, 40.0g to bottle 4, containing 0.5m of the dilute tetraoxosulphate (vi) acid. And 50.0g to bottle 5 containing the same acid, and Finally, bottle 6 was containing the mild steel metal and the dilute tetraoxosulphate (vi) acid. It was observed that the Udara seed extract effectively inhibited mild steel corrosion in H2SO4 solution. Inhibition efficiency was observed to improve with increase in concentration of the extract. It was generally observed that inhibition efficiency was low at the first hour and with the blank and the first concentration and gradually increases by the preceding hours and concentrations. Weight loss increased with increase in time portraying retardation in the inhibitor efficiency with increase in time.

This research investigates the viability of Nigerian barite deposits as a substitute for imported barite in drilling operations. Despite Nigeria’s abundant barite reserves, oil servicing companies have historically relied on foreign sources, hindering local production and economic growth. This study evaluates barite samples from three Nigerian locations - Nassarawa, Cross River, and Benue states - based on their chemical composition and physical properties, adhering to American Petroleum Institute (API) laboratory procedures. The results reveal that barite deposits from Calabar and Nassarawa meet the API standard, demonstrating their suitability for drilling applications. The findings suggest that processing Nigerian barite can generate significant revenue, equivalent to nearly one-third of the country’s 2023 budget. This underscores the potential for Nigeria’s barite deposits to contribute substantially to the nation’s economy. By exploring the utility of Nigerian barite as an efficient drilling fluid, this research aims to promote the development of Nigeria’s solid minerals sector, reduce reliance on imports, and support the growth of the oil and gas industry. The study provides valuable insights for policymakers, investors, and industry stakeholders, highlighting the importance of harnessing Nigeria’s natural resources to drive economic progress.

BOOSTING AUTOMOTIVE ENGINE PERFORMANCE: EXPLORING THE POTENTIAL OF FUEL ADDITIVES ON P.M.S AND A.G.O.NNADIKWE JOHNSON1.IHEME CHIGOZIE2. CHINEMEREM JOY JOHNSON3.IMO STATE UNIVERSITY., PETROLEUM AND GAS ENGINEERING DEPARTMENT.

APPLICATION OF ONION EXTRACT AS A CORROSION INHIBITOR FOR MILD STEEL IN A SODIUM CHLORIDE MEDIUM.Nnadikwe Johnson1.,Iheme Chigozie2.,Chinemerem Joy Johnson3.Imo State University.,Petroleum And Gas Engineering Department