Microcredit Effect on Agricultural Productivity: A Comparative Analysis of Rural Farmers in Ogun State, Nigeria

This study examines the effect of access to credit on the productivity of rural farming households in Ogun State, Nigeria. Data were collected, with the use of well structured questionnaire, from 240 small-scale rural farmers, who were categorized into users and non-users of micro-credit based on their statement, through multi-stage sampling technique. Descriptive statistics, budgetary technique and multiple regression analysis, involving the use of ordinary least square (OLS) method of estimation, were employed in analyzing data for this study. The results revealed that total cost per hectare of credit user farmers is higher (N41,632.53) than that of non-credit user farmers (N32,667.79), indicating misallocation of resources by credit-user farmers. Again, profit per hectare of credit users farmer is greater (N44,466.59) than that of non-credit users (N27,833.03), suggesting that, access to credit could lead to improved farmers' productivity and higher income in form of revenue and profit. Regression analysis showed that only fertilizer and farm size, both being positive, affect credit users farmer's output, whereas, planting material, agrochemical, farm size and fixed inputs affects non-credit users farmer's output. R2 values suggested that variation in output by the two categories of farmers is explained by 57 and 52 percent of explanatory variables in their production functions, respectively. F-value of 9.84 and 10.11 recorded for the two categories of farmers respectively, and being significant at 1 percent each, led to the rejection of the hypothesis of inputs having no significant effect on output. It is thus concluded that credit could bring about higher productivity and profit in agricultural production, hence, this study recommends that existing banks should be encouraged to have more rural outlets, while there should be federal government policy of empowering rural farmers to have access to more agricultural lands.Keywords: Micro-credit, Productivity; Rural-farmers; Ogun State, Nigeri

Identification and Characterisation of Major Hydrocarbons in Thermally Degraded Low Density Polyethylene Films

The vast application of Low Density Polyethylene (LDPE) in packaging, greenhouses, homes etc has led to its huge accumulation as a municipal solid waste with monumental health, economic and environmental consequences. Since these are non-biodegradable and their photodegradation occurs only over a very long period, their economic conversion to energy products through pyrolysis is the thrust of this study. LDPE sample collected from the University of Ilorin Community was thermally degraded in a pyrolyser at temperatures ranging from 203 – 400 oC. The products of pyrolysis were in three (3) states of matter and both the liquid and solid products were analysed using FTIR to determine the functional groups and GC- MS for the hydrocarbons present in the products. For the GC-MS analysis, the peaks that had 90% above quality when compared with the compounds in the installed NIST11 library were reported. There were alkanes, alkenes, halogenated alkanes, and very few aromatics in the liquid product and, the hydrocarbons were observed to range between C10 - C27. The FTIR and GC-MS results show the potential of the oil obtained as renewable source of energy while that for residue shows its inherent energy content. The liquid product was refluxed over molecular sieve catalyst (US 2882244A) and the calorific value was found to increase from 13,974 kJ/kg to 15,815.52 kJ/kg and this is found to be comparable to the range for lignite and dry wood. Key words: environmental pollution, solid wastes, LDPE, pyrolysis, hydrocarbons, Calorific value

Design optimisation of reinforced concrete pile foundation using generalised reduced gradient algorithm

Purpose – The purpose of this study is to find the optimum design of Reinforced Concrete (RC) pile foundation to enable efficient use of structural concrete with greater consequences for global environment and economy. Design/methodology/approach – A non-linear optimisation technique based on the Generalised Reduced Gradient (GRG) algorithm was implemented to find the minimum cost of RC pile foundation in frictional soil. This was achieved by obtaining the optimum pile satisfying the serviceability and ultimate limit state requirements of BS 8004 and EC 7. The formulated structural optimisation procedure was applied to a case study project to assess the efficiency of the proposed design formulation. Findings – The results prove that the GRG method in Excel solver is an active, fast, accurate and efficient computer programme to obtain optimum pile design. The application of the optimisation for the case study project shows up to 26% cost reduction compared to the conventional design. Research limitations/implications – The design and formulation of design constraints will be limited to provisions of BS 8004 and EC 7. Practical implications – Since the minimum quantity of concrete was attained through optimisation, then minimum cement will be used and thus result in minimum CO2 emission. Therefore, the optimum design of concrete structures is a vital solution to limit the damage to the Earth’s climate and the physical environment resulting from high carbon emissions. Originality/value – The current study considers the incorporation of different soil ground parameters in the optimisation process rather than assuming any pile capacity value for the optimisation process

Cancer mortality patterns in Ghana: a 10-year review of autopsies and hospital mortality

BACKGROUND: Cancer mortality pattern in Ghana has not been reviewed since 1953, and there are no population-based data available for cancer morbidity and mortality patterns in Ghana due to the absence of a population-based cancer registry anywhere in the country. METHODS: A retrospective review of autopsy records of Department of Pathology, and medical certificate of cause of death books from all the wards of the Korle-Bu Teaching Hospital (KBTH), Accra, Ghana during the 10-year period 1991–2000 was done. RESULTS: The present study reviews 3659 cancer deaths at the KBTH over the 10-year period. The male-to-female ratio was 1.2:1. The mean age for females was 46.5 [Standard Deviation (SD), 20.8] years, whilst that of males was 47.8 (SD, 22.2) years. The median age was 48 years for females and 50 years for males.Both sexes showed a first peak in childhood, a drop in adolescence and young adulthood, and a second peak in the middle ages followed by a fall in the elderly, with the second peak occurring a decade earlier in females than in males. The commonest cause of cancer death in females was malignancies of the breast [Age-Standardized Cancer Ratio (ASCAR), 17.24%], followed closely by haematopoietic organs (14.69%), liver (10.97%) and cervix (8.47%). Whilst in males, the highest mortality was from the liver (21.15%), followed by prostate (17.35%), haematopoietic organs (15.57%), and stomach (7.26%). CONCLUSION: Considering the little information available on cancer patterns in Ghana, this combined autopsy and death certification data from the largest tertiary hospital is of considerable value in providing reliable information on the cancer patterns in Ghana

Identification and Characterisation of Major Hydrocarbons in Thermally Degraded Low Density Polyethylene Films

The vast application of Low Density Polyethylene (LDPE) in packaging, greenhouses, homes etc has led to its huge accumulation as a municipal solid waste with monumental health, economic and environmental consequences. Since these are non-biodegradable and their photodegradation occurs only over a very long period, their economic conversion to energy products through pyrolysis is the thrust of this study. LDPE sample collected from the University of Ilorin Community was thermally degraded in a pyrolyser at temperatures ranging from 203 – 400 oC. The products of pyrolysis were in three (3) states of matter and both the liquid and solid products were analysed using FTIR to determine the functional groups and GC- MS for the hydrocarbons present in the products. For the GC-MS analysis, the peaks that had 90% above quality when compared with the compounds in the installed NIST11 library were reported. There were alkanes, alkenes, halogenated alkanes, and very few aromatics in the liquid product and, the hydrocarbons were observed to range between C10 - C27. The FTIR and GC-MS results show the potential of the oil obtained as renewable source of energy while that for residue shows its inherent energy content. The liquid product was refluxed over molecular sieve catalyst (US 2882244A) and the calorific value was found to increase from 13,974 kJ/kg to 15,815.52 kJ/kg and this is found to be comparable to the range for lignite and dry wood. Key words: environmental pollution, solid wastes, LDPE, pyrolysis, hydrocarbons, Calorific value

Data‑driven approaches for vibroacoustic localization of leaks in water distribution networks

202403 bckwVersion of RecordOthersInnovation and Technology Fund (Innovation and Technology Support Programme (ITSP)), Hong Kong; Water Supplies Department, Hong KongPublishedSpringer Nature (2024)T