Displaying publications 41 - 60 of 839 in total

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  1. Akomolafe, Gbenga Festus, Zakaria Rahmad
    MyJurnal
    The study aimed at using satellite remote sensing in identifying the land-use changes that have occurred in Lafia, Nigeria within the past 35 years, especially in relation to the current and the predicted future invasion of a fern (Pneumatopteris afra). Landsat satellite images OLI/TIRS, ETM+ and TM within the interval of 15 years from 1985 to 2020 were used for the extraction of land-use. Six broad classification systems were used to classify the land-use changes by employing a supervised classification technique. In 1985, the bare land dominated the land-use having an area of 69156 ha while the wetland was the least having an area of 3412 ha. However, in 2020, the built-up area has dominated the land-use of Lafia with an area of 144645 ha (52.21%) while the wetland still remained the least with area of 1477 ha. This is obviously due to the geometric increase in the urbanization of this city. There was a consistent loss of the forests from 1985 to 2020 with an annual rate of loss of 0.46%. This resulted in a loss of 44329 ha of forests in 2020 out of the 47643 ha in 1985. This approximately leads to a total loss of 172,732,045 USD of forest products. The current invasion of Pneumatopteris afra in Lafia was found to fall within the shrub and grasses land-use class. This indicates that the landsat satellite could not detect the wetlands where the plant dominated due to its massive covering. This study calls for immediate conservation of the remaining forests and wetlands in Lafia to prevent further encroachments and invasion by plants.
  2. Habibu Ismail, Md Rowshon Kamal, Lai Sai Hin, Ahmad Fikri Abdullah
    MyJurnal
    Hydrological models are reliable tools that have been extensively used for hydrological studies. However, the complexity of some of these models has been a major setback, which affects their performance. This study compared Hydrologic Engineering Corps Hydrologic Modeling System (HEC-HMS) with most widely applied Soil Water Assessment Tool (ArcSWAT) model and used to assess impacts of climate change on streamflow at Bernam Basin, Malaysia for 2010-2039, 2040-2069 and 2070-2099 to the baseline period (1976- 2005) using an ensemble of ten GCMs under three RCP scenarios (RCPs 4.5, 6.0 and 8.5). The models performed satisfactorily. However, HEC-HMS performed better compared to ArcSWAT with 0.74, 0.71, 4.21 and 0.37; and 0.71, 0.69, 5.32 and 0.31 for R2 , NSE, PBIAS and RSR, respectively, during the calibration and validation periods. Future periods suggest a decreasing pattern in streamflow, with a higher percentage (−5.94%) expected for the RCP 8.5 scenario in the late century (2080s) during dry season period. In the wet season, streamflow decreases in all future periods except for RCP4.5 where it is expected to increase (0.36%). Therefore, the Basin may likely experience tremendous pressure in the late century due to low streamflow, particularly in dry season months.
  3. Nur Ezlin Zamri, Alyaa Alway, Mohd. Asyraf Mansor, Mohd Shareduwan Mohd Kasihmuddin, Saratha Sathasivam
    MyJurnal
    Artificial neural networks (ANNs) are actively utilized by researchers due to their extensive capability during the training process of the networks. The intricate training stages of many ANNs provide a powerful mechanism in solving various optimization or classification tasks. The integration of an ANN with a robust training algorithm is the supreme model to outperform the existing framework. Therefore, this work presented the inclusion of three satisfiability Boolean logic in the Hopfield neural network (HNN) with a sturdy evolutionary algorithm inspired by the Imperialist Competitive Algorithm (ICA). In general, ICA stands out from other metaheuristics as it is inspired by the policy of extending the power and rule of a government/country beyond its own borders. Existing models that incorporate standalone HNN are projected as non-versatile frameworks as it fundamentally employs random search in its training stage. The main purpose of this work was to conduct a comprehensive comparison of the proposed model by using two real data sets with an elementary HNN with exhaustive search (ES) versus a HNN with a standard evolutionary algorithm, namely- the genetic algorithm (GA). The performance evaluation of the proposed model was analyzed by computing plausible errors, such as root mean square error (RMSE), mean absolute error (MAE), global minima ratio (Rm), computational time (CT) and accuracy (Q). The computational simulations were carried out by operating the different numbers of neurons in order to validate the efficiency of the proposed model in the training stage. Based on the simulations,
    the proposed model was found to execute the best performance in terms of attaining small
    errors and efficient computational time compared to other existing models.
  4. Alyaa Alway, Nur Ezlin Zamri, Mohd Shareduwan Mohd Kasihmuddin, Saratha Sathasivam, Mohd. Asyraf Mansor
    MyJurnal
    Analyzing commodity prices contributes greatly to traders, economists and analysts in
    ascertaining the most feasible investment strategies. Limited knowledge about the price
    trend of the commodities indeed will affect the economy because commodities like palm
    oil and gold contribute a huge source of income to Malaysia. Therefore, it is important to
    know the optimal price trend of the commodities before making any investments. Hence,
    this paper presents a logic mining technique to study the price trend of palm oil with other
    commodities. This technique employs 2-Satisfiability based Reverse Analysis Method
    (2-SATRA) consolidated with 2-Satisfiability logic in Discrete Hopfield Neural Network
    (DHNN2-SAT). All attributes in the data set are represented as a neuron in DHNN which
    will be programmed based on a 2-SAT logical rule. By utilizing 2-SATRA in DHNN2-SAT,
    the induced logic is generated from the commodity price data set that explains the trend
    of commodities price. Following that, the performance evaluation metric; error analysis
    and accuracy will be calculated based on the induced logic. In this case, the experimental
    result has shown that the best-induced logic identifies which trend will lead to an increase
    in the palm oil price with the highest accuracy rate.
  5. Mohammed Yousif Turki, Fudziah Ismail, Norazak Senu
    MyJurnal
    This paper focuses on the construction of two-point and three-point implicit block
    methods for solving general second order Initial Value Problems. The proposed methods
    are formulated using Hermite Interpolating Polynomial. The block methods approximate
    the numerical solutions at more than one point at a time directly without reducing the
    equation into the first order system of ordinary differential equations. In the derivation of
    the method, the higher derivative of the problem is incorporated into the formula to enhance
    the efficiency of the proposed methods. The order and zero- stability of the methods are
    also presented. Numerical result
  6. Muhammad Ammad, Ahmad Ramli
    MyJurnal
    In this paper work, three-dimensional terrain models were reconstructed from twodimensional contour lines. Firstly, spatial curves were generated from contour lines using
    parameterized cubic B-spline curve interpolation. Then surfaces were constructed by using
    B-spline ruled surface. In the reconstruction process, some issues such as keyholes and
    branching may arise. Therefore, we propose a method that handles the branching object to
    construct a bilinear patch by following the proposed data point’s extraction algorithm. We
    also solved keyholes issues by retaining the same knot vector condition on B-spline ruled
    surface. Results are also demonstrated for models with branching and without branching.
  7. Abderrahim Zermane, Mohd Zahirasri Mohd Tohir, Mohd Rafee Baharudin, Hamdan Mohamed Yusoff
    MyJurnal
    Working at heights has always been a concern for the process industry and construction industry. According to recent statistics, falls from heights are the leading cause for at least a third of all construction accidents, based on the accident reports from Malaysia, United States of America (USA) and Great Britain. Therefore, the aim of this research is to investigate the contributing factors for fatal accidents due to falls from heights based on published official data by government agencies such as Department of Occupational Safety and Health (DOSH) in Malaysia and Occupational Safety and Health and Administration (OSHA) in the USA. Thorough risk analysis of accidents due to falls from heights is needed as a step to improve the safety of workers and reduce the number of fatalities. The methodology used was developed through an in-depth literature review from relevant publications that discussed falls from heights investigations ranging from individual characters to management commitment and site conditions. The data is available and accessible to the public via OSHA and DOSH and can be obtained by browsing their websites. The data were analysed based on the relevant understanding of the description mentioned in the accident reports and its relationship with the contributing factors. Eventually, from the analysis, the factors which affect more the numbers of fatal accidents due to falls from heights were obtained. In this study, 105 fatal accidents due to falls from heights from Malaysia data and 101 fatal accidents from USA data were selected through a precise selecting process and analysed to determine which factor was the highest contributor to increasing the number of fatal workplace accidents due to falls from heights. Results indicate that a lack of effective management is the highest contributor to falls from height fatal accidents.
  8. Sulaiha Ali, Siti Aslina Hussain, Mohd Zahirasri Mohd Tohir, Ahmad Ainuddin Nuruddin
    MyJurnal
    The information on the combustion properties of local timber is crucial in Malaysia as the archival material related to this subject matter is found to be very limited in scope and incomplete. The heat release rate (HRR) is the most precious variable of combustion properties as it provides the key to understand and quantify the hazard in fires. Thus, this work is to verify the reliability of the HRR obtained from cone calorimeter tests conducted upon six Malaysian wood species: Shorea laevis, Vatica rassak, Koompassia malaccensis, Heritiera, Shorea parvifolia and Cratoxylum arborescens. The single factor one-way analysis of variance (ANOVA) was used to investigate statistically significant differences between the means of the HRR dataset of each species during the combustion tests at three different heat fluxes. Later, the confidence interval estimation was occupied to determine the range around the HRR dataset, where the means of the data was likely to be found. The intraclass correlation coefficient (ICC) test was also implemented to assess the reliability of the heat release rate data obtained from the cone calorimeter test. From the surveillance, the P-values of all the six species were higher than α = 0.05, insinuating that the difference between the means of the dataset was not statistically significant. The confidence interval values consisting of the upper bound and lower bound limits indicate that the certainty that these ranges contain the true mean of the heat release rate dataset is 95%. Finally, the fact that heat release data received from the cone calorimeter test were highly reliable to statistically calculate the variation in measurements taken by a single instrument under the same condition confirmed by the ICC’s values of 0.82 to 0.99 that reflect good to excellent correlations.
  9. Mardhati Zainal Abidin, Risza Rusli, Norsuzieanah Halil
    MyJurnal
    The development and application of advanced materials i.e. nanomaterials are important for the technology revolution and economic progress of the country. However, the potential health risk arising from nanomaterials become a major concern. Given the fact that both particulate and molecular identity of nanomaterials is responsible for the biological effects, the effects of nanomaterial exposure cannot be predicted based on the current understanding of their bulk properties. The lack of nanomaterials data for safety assessment become a major challenge to implement safe work practice at nanomaterials related industries. To resolve the aforementioned problem, a conceptual framework for hazard assessment of nanomaterials is presented in this study. Bayesian Network (BN) is used to support hazard assessment according to the guideline issued by the Department of Occupational Safety and Health (DOSH) Malaysia. The understanding of the hazard is crucial to encourage the development of an action plan to ensure the safety aspect while processing and handling nanomaterials.
  10. Firas Basim Ismail Alnaimi, Chee Liang Lim Henry, Amar Sahed, Hikmat S. Al Salim, Mohammad Shakir Nasif
    MyJurnal
    In natural gas processing, carbon dioxide is one of the major streams contaminate from the gas reservoir and must be removed, as it reduces the energy content of sales gas. In order to remove huge amounts of carbon dioxide (CO2), gas hydrate is used to capture CO2. However, the high formation of hydrate will inhibit clogs in gas pipelines. Hence, this research presents literature on hydrate formation, prediction of methane-carbon dioxide (CH4-CO2) gas mixture, by using simulation packages of Aspen Hysys 7.2, K-factor, VMG SIM Ver. 6 and BR & E ProMax 2.0. Peng-Robinson model was used in all simulation packages. Simulation results obtained were then compared with experimental data from previous literature sources. The simulation results showed that the higher the concentration of CO2 in CH4-CO2 gas mixture, the lower the pressure required for CO2 hydrate to form throughout the predicted temperature range from -20°C to 20°C.
  11. Rafeqah Raslan, Mimi Haryani Hassim, Nishanth Gopalakrishnan Chemmangattuvalappil, Denny Kok Sum Ng, Joon Yoon Ten
    MyJurnal
    In household products, specific chemical ingredients are used to satisfy the desired target properties as required by the consumers. However, some of these ingredients may result in safety risks and adverse health effects. Early consideration of safety and health aspects during product design is vital to minimize the impact on consumers. Safety and health aspects have not been strongly emphasized before in many product design methodologies. Therefore, a systematic methodology is proposed to assess the safety and health effects of the potential ingredients, before they are used in the product formulation. The chemical ingredient candidate may be a novel ingredient or a typical ingredient used in formulated product design. In this work, a computer-aided molecular design (CAMD) technique was used to design the novel ingredient candidates with the integration of safety and health aspects. Then, the safety and health performance of the ingredient candidates were assessed by inherent safety and health sub-indexes. Each safety or health parameter was assigned with a score, based on the degree of the potential hazards. A higher score was given to the ingredients with higher safety risk or more severe health effect, and vice versa. The result of the safety and health assessment based on the score allocation had contributed to the selection of chemical ingredient. This new approach ensures that the selected ingredient possesses desirable properties as well as low safety and health effects. A case study on surfactant design is presented to illustrate the incorporation of safety and health aspects into product design methodologies.
  12. Siti Haslina Mohd Ramli, Rosman Arifin, Hambali Chik
    MyJurnal
    Composite repairs have been increasingly applied for maintenance and rehabilitation of piping, pipelines and vessels in the oil and gas industry, thus there is a growing need to monitor their in-service integrity, repair lifetime extension and prevent loss of containment of the product. There are many challenges of inspecting composite repairs including accessibility, inhomogeneous and anisotropic structure of composites, probability of detection, lack of adequate standards and diversity of composite materials amongst others. The current practice for inspection and monitoring of composites repair on oil and gas piping and pipelines is usually conducted based on International Standards Organisation (ISO) 24817 whereby visual inspection is generally performed to observe any irregularities on the surface like discolouration, cracks, chalking and blistering. This will usually be followed through with a coin tap test and Barcol hardness testing. Upon any findings of anomalies, further investigation is then performed using advance non-destructive testing (NDT) inspection technique to determine the integrity of the wrap, depending on the type and severity of defects. ISO 24817 has stated the general techniques that can be used to inspect the composites overwrap repairs including Ultrasound Technique, Radiography and Acoustic Emission. However, Petroliam Nasional Berhad (PETRONAS) has performed a series of assessments on various inspection techniques to seek suitable inspection methods for the composite wrap system, composites/substrate interface and/ or substrate. A total of 10 NDT techniques had been evaluated thus far including Laser Shearography, X-Ray, Microwave technique, Dynamic Response Spectroscopy (DRS), Acoustic Emission (AE), Computed Radiography (CRT), Pulse Eddy Current, Metal Magnetic Memory (MMM). This research summarises an overview of the effectiveness of the evaluated techniques and findings of the evaluation.
  13. Kar Kei Pang, Hanida Abdul Aziz, Abir Abdul Patah
    MyJurnal
    The potential of a major accident may significantly increase when change is unprepared especially in a temporary and emergency change. An unplanned change may lead to the emergence of new hazards which eventually lead towards severe impact on human, property, environment and business reputation. Management of Change (MOC) with integrated risk analysis is an important Process Safety Management (PSM) elements involving planning and controlling risks and hazards that come with the proposed change. However, lacking systematic technique for easy adoption of this element has delayed its application in plant. Corresponding to these weaknesses, an integrated MOC management system focusing on the temporary and emergency change is presented in this study. Results of this study comprise MOC process framework and MOC management system (MOCMS) which act as a guidance and documentation inventory tool. Implementation of this technique and system at the selected plant as a case study is examined and discussed. The system is beneficial to industries to manage underlying risks in a temporary and emergency change which ease the tracking of MOC case inventory to improve risk controls in changes.
  14. Nagoor Basha Shaik, Srinivasa Rao Pedapati, Shazaib Ahsan, Faizul Azly Abd Dzubir, Syed Ali Ammar Taqvi
    MyJurnal
    Leaks and breakdowns of pipelines can lead to catastrophic failures and cause economical losses worldwide. Currently, condition monitoring has become a challenging process because of various reasons such as fluctuating external conditions, natural hazards. Pipelines are installed in severe conditions and are subjected to degradation mainly due to corrosion and metal loss. This study attempted to classify different types of metal loss faults using historical inspection data of oil and gas fields. For this purpose, Support Vector Machines (SVM) were employed to classify and predict various types of metal loss faults which were affecting the life condition of a crude oil pipeline. The historical inspection data was acquired from a crude oil pipeline located in Sudan. Different types of SVM models were trained and quadratic SVM type was selected for the present study due to its high prediction accuracy. The performance evaluation of the proposed SVM model was done using the confusion matrix. The developed SVM model provides promising results with a prediction accuracy of 93.0%. As a result, the fault detection rate (FDR) for all faults is found to be 90.4%, while the misclassification rate (MR) is 9.6%. The prediction of metal loss fault type may help in condition assessment and maintenance schedule to take prior actions for the better life of pipeline which reduces the degradation rate of a pipeline.
  15. Umamaheswari Porselvam, Hamdan Mohamed Yusoff, Nik Nor Liyana Nik Ibrahim
    MyJurnal
    Vapor cloud explosion is one of the major threats to Floating, Production, Storage and Offloading (FPSO) facilities due to its congested and confined nature. Reduction in explosion overpressure can be achieved by improving the ventilation in FPSO. During early design stage of FPSO, designers consider providing grated process decks to improve the ventilation. However, there is limited research on the comparison of the explosion overpressure between the grated deck and the traditional plated deck. In this study, Vapor Cloud Explosion perspective of plated versus grated process deck in typical FPSO was evaluated by utilizing Det Norske Veritas’s (DNV) SAFETI OFFSHORE modelling tool. Representative leak scenarios were selected based on frequency analysis of major accident hazards associated with typical FPSO facility. This study revealed that the overpressure exceedance frequency in plated process deck was higher than the grated process deck for the selected scenario. This serves as quantitative guidance for designers to select an inherently safer type of decks in FPSOs from explosion perspective during the preliminary design stage. However, a detailed Computational Fluid Dynamics (CFD) study is recommended to get an insight of dangers associated with the presence of plated and grated process decks in FPSO, by considering all the parameters and conditions applicable.
  16. Aini Aliah Yusoff, Zulfan Adi Putra, Risza Rusli, M Roil Bilad, Nik Abdul Hadi Md Nordin, M Dzul Hakim Wirzal
    MyJurnal
    Pressure relief system is a system to prevent overpressure inside protected equipment that exceeds its maximum allowable working pressure (MAWP) to disposal treatment. Relief system is designed on two different plant case studies, which are dimethyl-ether and ethylbenzene plants by using conventional design procedure. Nevertheless, the conventional design steps are not considering cost optimization of plant installed with relief system. Thus, the design pressure of protected equipment, piping diameter, and disposal treatment is set to be manipulated variables to determine the cost minimization. Pressure drops of inlet piping and backpressure are as constraint variables due to standard requirements. The standards state that inlet piping pressure drops should be below 3% of set pressure and outlet piping pressure drop to set pressure percentage based on range to determined types of the relief valve to be used. From that, optimum plant design with consideration of pressure relief system’s installation can be achieved by calculating the total cost of plant designed with relief system when set pressures are changed. As a result, dimethyl-ether plant shows a minimum point of the total cost at 170% of set pressure increment, which is lower than its original design. On the other hand, ethylbenzene plant gives optimum point at original design as the total cost is higher at set pressure increment.
  17. Noor Fazreen Ahmad Fuzi, Firas Basim Ismail Alnaimi, Mohammad Shakir Nasif
    MyJurnal
    Maintenance acts as a significant role in smoothening the operations in power plants. Risk and failure are some of the common problems in power plant leading to unexpected outages such as boiler shutdown or tube leakage. The rectification of these problems requires ceasing operations of the boiler which leads to a loss in the revenue annually. Therefore, this work was focused on prioritizing the maintenance activities and optimize the operational duration and cost by implementing risk-based maintenance (RBM) and particle swarm optimization (PSO). Previous literature implores that, RBM is commonly used in oil and gas industries to predict the risk or failure of the equipment. In this work, the RBM method was adopted accordingly to the power plant industries. The methodology is segregated into two main phases. First, the ranking and prioritization maintenance activities were performed using RBM. Then, the optimization of the operational duration and cost were simulated by PSO approached in MATLAB. The main outcome of this research is to act as a reference in adopting the best approaches to improve the power plant performance.
  18. Siti Khuzaimah AS, Aini A, Surindar Kaur SS, Hayati Adilin MAM, Padma AR
    MyJurnal
    Self-care behaviour involves all activities type 2 diabetes patients engage in to care for their disease. In our local population, however, most patients do not manage their disease appropriately. This study aimed to determine the level of self-care behaviour and to examine the differences in self-care behaviour according to type 2 diabetes patients’ demographic data and health condition at University Malaya Medical Centre. Sample of this study comprised 388 patients (respondents) and data were collected from December 2010 to February 2011 using self-administered questionnaires. Results showed that the level of self-care behaviour was moderately high (mean = 38.94, SD=11.93). There were significant differences between self-care behaviour and ethnicity [Wilk’s Lambda = 0.92, F(12, 1008) = 2.70, p < 0.05], age group [Wilk’s Lambda = 0.96, F(4, 383) = 4.39, p < 0.05], education level [Wilk’s Lambda = 0.94, F(12, 1008) = 1.85, p < 0.05], type of treatment [Wilk’s Lambda = 0.92, F(12, 1008) = 2.84, p < 0.05], health education [Wilk’s Lambda = 0.97, F(4, 383) = 3.33, p< 0.05]. Respondents who are Indian, elderly, had lower level of education, on insulin treatment, had received health education on diabetes and not smoking had better self-care behaviour scores. It can be concluded that high risk type 2 diabetes patients should be taught individually so as to help them improve physical and psychological outcome.
    Study site: diabetic clinic; medical, nephrology, orthopedic, and surgery wards, University Malaya Medical Centre (UMMC)
  19. Rosnani Ginting, Amir Yazid Ali
    MyJurnal
    Quality Function Deployment (QFD) is a structured methodology that uses customer and technical
    requirements for designers and manufacturers to provide better products. Many researchers combine or
    integrate the technique of QFD with other methodologies such as Theory Inventive of Problem Solving
    (TRIZ) or Design for Manufacture and Assembly (DFMA) to optimise product design innovation and
    improvement. The combined methodologies are even used to solve process problems. Initial literature
    review of the application of stand-alone QFD poised several problems. Combining QFD with other
    techniques, such as TRIZ and DFMA, has helped to address these issues and forms the basis of future
    research. The integrated methods can solve main contradictory problems more precisely from product
    demand analysis to product design, production and application. Review work of the literature, specifically
    that on research and development of QFD, TRIZ and DFMA, showed that the said methodologies have
    been widely and successfully implemented in several practical applications such as resolving conflicts
    between customer and technical/engineering requirements and reducing production cost. This review work
    provides an in-depth analysis of identifying and finding issues of strengths, weaknesses and outcomes
    of the QFD when combined with TRIZ and also of QFD integrated with DFMA.
  20. Sinha, P.C., Jena, G.K., Rao, A.D., Mohd Lokman Husain, Jain, Indu
    MyJurnal
    A depth-averaged numerical model was developed to study tidal circulation and suspended sediment transport in the gulf of Khambhat along the west coast of India. The spatial resolution of the model is 750m x 750m. A 2-D fine resolution (150 m x 150 m) model for the lower part of the Narmada estuary is coupled with the coarser gulf model to simulate the flow features in the lower estuary. The model dynamics and basic formulation remain the same for both the gulf model and the estuary model. The models are barotropic, based on the shallow water equations and neglect horizontal diffusion and wind stress terms in the momentum equations. The models are fully non-linear and use a semi-explicit finite difference scheme to solve mass, momentum, and advection- diffusion equation for suspended sediments in a horizontal plane. The erosion and deposition have been computed by an empirically developed source and sink term in the suspended sediment equation. The tide in the gulf is mainly represented in the model by the semi-diurnal M2 constituent. Meanwhile, fresh water discharge from the rivers joining the gulf had also been considered. Numerical experiments were carried out to study the circulation and suspended sediment concentrations in the gulf and estuarine region.
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