9 results on '"Zadariana Jamil"'
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2. Performance of Treated and Untreated Spent Coffee Ground on the Removal of Cu (II) in Aqueous Solution: A Comparative Study
- Author
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Aini Sofia Md Isa and Zadariana Jamil
- Subjects
Ecology ,Environmental Science (miscellaneous) ,Pollution ,Nature and Landscape Conservation - Published
- 2022
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- View/download PDF
3. Integrated water quality monitoring system and iot technology for surface water monitoring
- Author
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Muhammad Izz Hakimi Zaidi Farouk, Mohd Fuad Abdul Latip, and Zadariana Jamil
- Published
- 2022
- Full Text
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4. F-C Tutorial App: Active Learning Approach via Mobile Application Technology to Develop Student Intrapersonal Skills
- Author
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Duratul Ain Tholibon, Mohd Fairuz Bachok, Ainamardia Nazaruddin, Zulhafizal Othman, and Zadariana Jamil@ Othman
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Human–computer interaction ,GeneralLiterature_INTRODUCTORYANDSURVEY ,active learning ,Active learning ,intrapersonal skills ,mobile application ,Psychology ,Intrapersonal communication - Abstract
Mobile application technology has been widely used in various fields, including education, because it is software in mobile phones owned by anyone. Besides, it easy to use anywhere and anytime. Therefore, by applying the app's merits, the Fast and Correct Tutorial App (F-C Tutorial App) is developed using this technology as a platform. The F-C Tutorial App is a weekly tutorial whereby every weekend of the lecture weeks, students can download a few questions via the app, and then the answers that had been calculated need to be filled up in the app. A survey was conducted on the target group, and the survey questions were divided into three sections: the respondent background, the agreement of F-C Tutorial App can enhance student intrapersonal skills, and the F-C Tutorial agreement App is a user-friendly tool. The group of lecturers who develop this app believes that ongoing training that can easily access and accompanied by competition for rewards is an active learning approach that can motivate students to develop their cognitive and affective skills. Besides, the rules that need to be followed to ensure the F-C Tutorial App can be easier to use and positively impact.
- Published
- 2021
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5. Development of Water Quality Monitoring Device Using Arduino UNO
- Author
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I M Hakimi and Zadariana Jamil
- Subjects
Microcontroller ,Arduino uno ,SIMPLE (military communications protocol) ,Mobile phone ,Real-time computing ,Environmental science ,Metre ,Water quality ,Stage (hydrology) ,Turbidity - Abstract
Regular water quality monitoring of water bodies is essential to ensure it is within the allowing standard limits. The development of a simple and low-cost water quality measurement device for real time monitoring using Internet of Things (IoT) technology is presented in this study. Kolora meter is an alternative to the existing commercial monitoring devices. It was developed using the open-source platform Arduino UNO model and NodeMCU board as the microcontroller and Wi-Fi connection respectively. Two sensors such as temperature and turbidity were selected to be installed in the early stage of Kolora meter development. The physical parameters (temperature and turbidity) of water were measured and the measured data collected are able to be viewed and monitored on the mobile phone using Kolora Mobile Application via Wi-Fi connection. Therefore, this surface water quality device has potential to be applied in real time monitoring for early pollution detection and during COVID-19 pandemic spread due to limited movement.
- Published
- 2021
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6. Nickel Electrodeposition on Silver for the Development of Solid Oxide Fuel Cell Anodes and Catalytic Membranes
- Author
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Enrique Ruiz-Trejo, Zadariana Jamil, and Nigel P. Brandon
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Technology ,NI ,Materials science ,0306 Physical Chemistry (Incl. Structural) ,020209 energy ,Inorganic chemistry ,Materials Science ,FABRICATION ,chemistry.chemical_element ,02 engineering and technology ,Electrochemistry ,Methane ,Boric acid ,chemistry.chemical_compound ,METHANE ,Materials Science, Coatings & Films ,0202 electrical engineering, electronic engineering, information engineering ,Materials Chemistry ,Partial oxidation ,DEPOSITION ,0912 Materials Engineering ,Deposition (law) ,CERMET ANODES ,Science & Technology ,Energy ,Renewable Energy, Sustainability and the Environment ,OXYGEN PERMEATION ,BORIC-ACID ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Anode ,Nickel ,PARTIAL OXIDATION ,chemistry ,ELECTROLESS COATING TECHNIQUE ,DENSE CERAMIC MEMBRANES ,Physical Sciences ,Solid oxide fuel cell ,0210 nano-technology ,0303 Macromolecular And Materials Chemistry - Abstract
Nickel was electrodeposited on porous Ag/GDC (silver/Ce0.9Gd0.1O2-x) scaffolds and dense Ag/GDC composites for the fabrication of SOFC electrodes and catalytic membranes respectively. To control the distribution and amount of nickel deposition on the Ag/GDC surfaces; first, a systematic cyclic voltammetry study of nickel electrodeposition from a Watts bath on silver foils was carried out to understand the influence of operating conditions on the electrodeposition process. From the cyclic voltammetry study, it can be concluded that suitable operating conditions for nickel electrodeposition into porous Ag/GDC scaffolds and catalytic membranes are: 1.1 M Ni2+ concentration in Watts bath; deposition potential between −0.65 to −1.0 V vs. Ag/AgCl; a temperature at 55◦C; sodium dodecyl sulfate (SDS) as the surfactant; pH 4.0 ± 0.2 and an agitation rate of 500 rpm. It was observed that the nickel surface microstructure changed with the deposition current densities due to the co-evolution of H2. Pulse and continuous electrodeposition modes allow nickel to be deposited throughout porous Ag/GDC scaffolds and onto catalytic membranes. The pulse electrodeposition mode is favored as this is shown to result in an even Ni distribution within the porous scaffolds at minimum H2 pitting.
- Published
- 2017
7. Optimization of phototrophic hydrogen production by Rhodopseudomonas palustris PBUM001 via statistical experimental design
- Author
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Shaliza Ibrahim, Sabaratnam Vikineswary, Mohamad Suffian Mohamad Annuar, and Zadariana Jamil
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Hydrogen ,biology ,Renewable Energy, Sustainability and the Environment ,Analytical chemistry ,Energy Engineering and Power Technology ,chemistry.chemical_element ,Condensed Matter Physics ,biology.organism_classification ,Light intensity ,Fuel Technology ,chemistry ,Pome ,Yield (chemistry) ,Photosynthetic bacteria ,Response surface methodology ,Rhodopseudomonas palustris ,Hydrogen production - Abstract
Phototrophic hydrogen production by indigenous purple non-sulfur bacteria, Rhodopseudomonas palustris PBUM001 from palm oil mill effluent (POME) was optimized using response surface methodology (RSM). The process parameters studied include inoculum sizes (% v/v), POME concentration (% v/v), light intensity (klux), agitation (rpm) and pH. The experimental data on cumulative hydrogen production and COD reduction were fitted into a quadratic polynomial model using response surface regression analysis. The path to optimal process conditions was determined by analyzing response surface three-dimensional surface plot and contour plot. Statistical analysis on experimental data collected following Box-Behnken design showed that 100% (v/v) POME concentration, 10% (v/v) inoculum size, light intensity at 4.0 klux, agitation rate at 250 rpm and pH of 6 were the best conditions. The maximum predicted cumulative hydrogen production and COD reduction obtained under these conditions was 1.05 ml H 2 /ml POME and 31.71% respectively. Subsequent verification experiments at optimal process values gave the maximum yield of cumulative hydrogen at 0.66 ± 0.07 ml H 2 /ml POME and COD reduction at 30.54 ± 9.85%.
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- 2009
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8. Anaerobic co-digestion of food waste for biohydrogen production
- Author
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Mohamad Suffian MohamadAnnuar, Zadariana Jamil, Shaliza Ibrahim, and Nurul Azwa Mohd Yunus
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Food waste ,Materials science ,Pome ,Waste management ,Sewage sludge treatment ,Sewage treatment ,Biohydrogen ,Response surface methodology ,Pulp and paper industry ,Sludge ,Hydrogen production - Abstract
The objective of this study was to find the optimum conditions for anaerobic co-digestion of food waste and sewage sludge and hydrogen (H2) production. The selected parameters for optimization of H2 production (e.g. temperature, initial pH, inoculum size) were analysed using Response Surface Methodology with Full Factorial Design. Two types of substrates were tested; food waste as a sole substrate and food waste mixed with palm oil mill effluent (POME) at volume ratio1:1. The optimized conditions for food waste as a sole substrate were pH 4.5, temperature of 35°C and inoculum size of 20% (v/v), with maximum predicted cumulative hydrogen production (MPCHP) of 0.22 ml H2/ml substrate. On the other hand, for food waste mixed with POME, pH 4.5, temperature of 35°C and inoculum size of 20% were the optimum conditions with MPCHP of 0.26 ml H2/ml substrate. Subsequently, verification experiments at optimal parameter values yielded cumulative H2 of 0.28 ml H2/ml substrate for food waste only, and 0.33 ml H2/ml substrate for food waste mixed with POME.
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- 2013
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9. Kinetic modeling of batch photofermentation hydrogen gas production by Rhodopseudomonas palustris PBUM001
- Author
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Sabaratnam Vikineswary, Mohamad Suffian Mohamad Annuar, Zadariana Jamil, and Shaliza Ibrahim
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Waste management ,biology ,Hydrogen ,Renewable Energy, Sustainability and the Environment ,Chemistry ,Continuous stirred-tank reactor ,chemistry.chemical_element ,Bacterial growth ,biology.organism_classification ,Pulp and paper industry ,Photofermentation ,Light intensity ,Volume (thermodynamics) ,Rhodopseudomonas palustris ,Hydrogen production - Abstract
An indigenous purple non-sulfur bacteria Rhodopseudomonas palustris PBUM001 was used to produce hydrogen gas via batch photofermentation of palm oil mill effluent (POME). The photofermentation hydrogen production was carried out in a 5-l reactor (B. Braun Biostat® B) with a working volume of 3.5 l (height: 39 cm and diameter: 16 cm) under anaerobic condition. The stirred tank reactor (STR) was conducted at temperature, 30 ± 2 °C; POME concentration, 100% (v/v); light intensity, 4.0 klux; pH 6, inoculum size, 10% (v/v); agitation rate, 250 rpm, and operated for 66 h. Two sets of experiments were run in STR (R1 and R2) and the data obtained were used for kinetic study of photofermentation hydrogen production. Unstructured models were used to describe the bacterial growth, substrate consumption, and hydrogen gas production by R. palustris PBUM001. The discrepancy between the proposed model and the experimental data in simulating hydrogen production from POME by R. palustris PBUM001 was measured by using residual sum of squares (RSS). Logistic model could be adopted to describe the kinetics of bacterial growth (RSS: 0.3039–0.2313) and the proposed model for substrate consumption agreed well with the experimental data obtained in this study as shown by its RSS value of 19.1319 and 26.8259 for R1 and R2, respectively. A modified Leudeking-Piret model was applied for the data fitting to determine the relationship between the cell growth and photofermentation hydrogen production (RSS: 1.3267–26.3741).
- Published
- 2012
- Full Text
- View/download PDF
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