As the lighting load constituted amount of power in electricity system, improving of efficiency in lighting technology would make a beneficial to consumer, energy provider and environment. Consequently, majority of home lighting manufacturers were competing each other by improving and claiming their product as the best energy efficient lighting product. Knowledge or exposure regarding to lighting technology especially on energy efficiency, power quality and economy are an important issues to give awareness to user before buy or use the lighting product. Therefore in this research study, three types of lighting product such as energy saving incandescent lighting, compact fluorescent lighting (CFL) and solid state lighting (LED) were compared. Comparative parameters were collected from data provided by lighting manufacturer and experimental data conducted in laboratory using power quality meter and lux meter. Hence, these study discussed in term of economy, power and light quality and energy efficiency of the tested lighting product. At the end of this study, the best home lighting technology is determined successfully.
Energy consumption of Wireless Sensor Networks (WSN) is an important aspect in
the design requirement. This is especially true in a situation where WSN is being
operated in isolated areas and thus relying on batteries due to unavailability of power
infrastructure. Since energy efficiency is the main concern in the deployment of WSN,
the sensor node must keep track of the charge that is left in the battery, commonly
referred as the State of Charge (SoC). To prevent the discontinuation of the operation
of the sensor node from power cut off, it is important to find an analytic model for
the battery’s state of charge. In this paper, an optimized structure of Multi-Layer
Perceptron (MLP) is utilized to obtain a model of the battery state-of-charge in
wireless sensor nodes. Results show the suitability of the method that produces
accurate and simple models, capable of being implemented even in low cost and very
constrained real motes.
The probability of the construction accident to happen is high due the nature of
Construction work that involves complex activities, methods, machineries, materials
and hazards. The occupational safety and health (OSH) law and regulations are
mandatory for every construction project to uphold. Responsibilities to ensure the
safety and health at the workplace lies with those who create the risk and with those
who work with the risk. The owner or client of the construction project has the upper
hand in determining the standard of OSH implementation in their project through
contract documents. If the contract documents comprehensively spell out OSH
requirements and cover all OSH cost, then the issues of contractor not implementing
OSH measures could be minimized. The objective of this study is to identify
Occupational Safety and Health requirements (OSH) in the contract document of
selected construction projects. To achieve this objective, a total of seven contract
document was collected from several construction companies. The qualitative analysis
was performed to identify the extent of OSH requirements and costs are being
mentioned in the contract documents. The finding shows that most of the contract
document contains very little emphasis on OSH requirements and budgeting. Only one
contract contains, an appendix that spell out about the safe work practices for
construction works. The visible allocated budget for OSH requirements for all seven
contracts is very minute range from 0.21% to 1.99% of contract value. In order to
ensure that occupational safety and health is properly implemented, safety needs must
be included in the budget because implementation it is not free, this can be achieved
by making it a permanent feature in all bills of quantity of the project.
Chitin is a biopolymer that forms the exoskeleton of arthropods, and found in the shells of crustacea and in the cell walls of certain fungi and algae. Commercially, chitin is obtained from processing the outer skeleton of crustacea such as shrimp, crab, prawn, and crayfish. Extraction of chitin was carried out using various chemical procedures. The study aim is to examine characteristic of chitin for different aging of Leucaena leucephala pods using hydrochloric acid (HCl). Different aging of the raw materials was used to study their effect of nitrogen content in the pods. In this study, chitin in Leucaena leucephala was extracted using chemical methods by using hydrochloric acid (HCl). The extracted chitin was then characterized by using elemental analyzer. The results obtained revealed that the percentage of nitrogen and carbon content in the samples was significantly reduced after extraction. Elemental analysis, the N% value in younger pods is closer to the theoretical value than adult pods. The purity of chitin in younger pods is higher than chitin in the adult pods.
The objective of this study is to characterized chitin from Leucaena leucephala pods at different aging stages with hydrochloric acid HCl by using Fourier Transform Infrared (FTIR). Leucaena leucephala is chosen to be used in this study because it is abundantly and can be found easily along the road as it is widely spread in Malaysia and available throughout the year. Leucaena leucephala is not fully utilized yet and it could potential for new source for chitin. Results from FTIR shows that Amide I band in Leucaena leucephala before and after extraction range of 1650-1600cm-1 and is not divided into two peaks which make it appear close to a β-chitin. Beside, Amide I band of Leucaena leucephala before and after extraction is appearing wide (U-shaped) rather than sharp therefore the chitin from Leucaena leucephala is determined to be in the form of β- chitin.
Yeast growth and biomass production are greatly influenced by the length of the
incubation period during cultivation. Therefore, this study was conducted to
investigate the growth kinetics of five Lipomyces starkeyi strains as determined by
biomass production. The five L. starkeyi strains, namely L. starkeyi ATCC 12659, L.
starkeyi MV-1, L. starkeyi MV-4, L. starkeyi MV-5 and L. starkeyi MV-8, were inoculated
in sterilized Yeast Malt broth, and, incubated for 192 hr at ambient temperature.
Biomass yields were assessed and calculated gravimetrically every 24 hr. Results
indicated that the optimal biomass production of L. starkeyi ATCC 12659, L. starkeyi
MV-1, L. starkeyi MV-4, L. starkeyi MV-5 and L. starkeyi MV-8 were at 120, 168, 144,
168 and 120 hr, with the concentrations of 6.64, 6.43, 9.78, 11.23 and 8.56 g/L,
respectively. These results indicate that each L. starkeyi strain requires specific
incubation period for the optimum production of fungal biomass. Therefore, by
cultivating each L. starkeyi strain at the predetermined incubation period, biomass
yields could significantly be improved for further downstream applications such as
single cell protein and lipid production.
Aggregate planning acts as a blueprint for all operational planning activities. Despite
the substantial amount of research that has been done in determining methods to
improve aggregate planning approaches, the industry is still at a loss when it comes
to working on the tactical planning aspect, especially in aggregate production.
Therefore, this research work aims to present a comprehensive and generalised
framework that will formulate a realistic batch production environment using an
interactive Production Decision Support System. This system consists of an aggregate
planning framework that combines a simulation model and a Pinch Analysis graphical
approach to improve the effectiveness and efficiency of the decision-making process.
The target is to allow operational opportunities to be captured at first sight and thus,
maximise organisational profit. The simplicity and practicality of this new Production
Decision Support System is demonstrated through two illustrative examples where a
total of four heuristics were identified and turned into the new strategies to avoid the
stock-out scenarios.
Interest in Indigenous Knowledge (IK) system has been particularly highlighted in
flood disasters, due to the likely increase of flood events resulting from
anthropogenic climate change through heavy precipitation, increased catchment
wetness, and sea level rise. Therefore, bringing IK of flood risk reduction into focus
and context to deepen the understanding of how people manage their own changing
circumstances can bring more pertinent information about flood risk reduction. This
paper reviews the significance of IK in flood risk reduction. Specifically, the paper
discusses IK flood forecasting, early warning signs, adaptation and coping strategies
in flood risk reduction around the world. The Methodological approach employed for
this paper is the review of existing literature on IK in flood Disaster Risk Reduction
(DRR), and then a summary of the outcomes of the studies reviewed was discussed.
However, it was deduced from the review undertaken, the need for an intensive
empirical study to be conducted to explore how efficient these strategies or
techniques are, in relation to flood risk reduction, which this paper strongly
recommends for further investigation. Additionally, the paper concludes by
emphasizing that although the IK of flood risk reduction is embedded in varied
regions around the globe, still there is a need for further study to be carried out in
order to unveil why the similarities and variations in flood risk reduction
practices/strategies between regions.
Membrane technologies have received high interest in the separation gas mixture. The
ceramic inorganic membranes have possessed high permeability, excellent thermal,
chemical and mechanical stabilities compared to conventional polymer membranes.
This work presents the fabrication of silica ceramic membrane by sol dip-coating
method. The tubular support was dipped into the solution of tetrethylorthosilicate
(TEOS), distilled water and ethanol with the addition of nitric acid as a catalyst. The
fabricated silica membrane was then characterized by (Field Emission Scanning
Electron Microscope) FESEM and (Fourier transform infrared spectroscopy) FTIR to
determine structural and chemical properties at different dipping number. FESEM
images indicate that the silica has been deposited on the surface fabricated ceramic
membrane and penetrate into the pore walls. However, number of dipping did not
affect the intensity peak of FTIR analysis.
Scholars have opined that the courtyard is a passive architectural design element and
that it can act as a microclimate modifier provided that its design requirements are not
ignored. But despite the assertions, empirical studies on the microclimatic
performance of a fully enclosed courtyard house and the non-courtyard house seems
to be deficient, and the assumption that the Courtyard is a passive architectural design
element needs to be substantiated. Therefore, the purpose of this study is to
investigate the microclimatic performance of a fully enclosed courtyard and noncourtyard
residential buildings. The main objective is to compare their microclimatic
performances in other to draw a conclusion on the best option. Three Hobo Weather
Data Loggers were used to collect climatic data in the buildings, and the third one was
situated in the outdoor area as a benchmark. The climatic variables investigated are;
air temperature and relative humidity. The fully enclosed courtyard residential building
is seen to have a better air temperature difference of 2 oC to 4 oC and the relative
humidity of 2 % to 6 %. In conclusion, the fully enclosed courtyard residential building
has confirmed a more favorable microclimatic performance, and future studies
towards its optimization are recommended.
This study aimed to integrate polyether sulfone (PES) membrane with hydroxyapatite synthesized from fish scale biowaste (HAp) to form ion exchange membrane. The PES incorporated by self-assembled with different concentrations of HAp solution; 0.2, 0.4, 0.6, 0.8 and 1.0 wt%. The prepared ion exchange membranes were characterized regarding permeability coefficient, porosity, morphology, ion exchange capacity (IEC), AT-IR, and fouling analysis. The promising characteristics and outstanding performance demonstrated by PES membrane incorporated with 0.8 wt%. Via SEM images and ATIR spectra, the PES/HAp-0.8 membrane depicted the adequate number, well distributed and low agglomeration of HAp onto the membrane surface with a strong attachment. The membrane also demonstrated good ion exchange capacity around 49%. Permeability coefficient for PES/HAp-0.8 membrane was 101.5 L/m2.h with 87.69 % membrane porosity.
Flood mitigation and assessments are crucial in current time. The seasonal and nonseasonal of flood occurrence in Malaysia provide risk towards country growth and productivity. In this study, the flood pattern will be analysed by using correspondence analysis. The data involve the occurrence of flood based on month and locality from 2013 to 2018. The test of independence (χ2 test) between month and locality indicated independency among the variables (p=0.615). The symmetric plot suggested that Perak, Melaka, Selangor, Johor, Terengganu, Sarawak inclined to have flood occurrence during December to March, while Kedah and Penang during March. This analysis will help authorities to better planning flood mitigation accordingly.
Nowadays, intelligent vehicles have received a considerable attention among the
researchers to reduce the number of collisions and road accidents. One of the
challenging tasks for these vehicles is road lane detection or road boundaries
detection. In this research, a lane detection algorithm was developed to detect the
right and left lane markers on the road by using two cameras which act as a stereo
vision for the system. It is based on edge detection by using Canny Edge Detection to
reduce unnecessary data on the images and to perform features recognition for the
lane. After the features has been extracted, the algorithm is followed by Hough
Transform method to generate the detected lines on the image obtained from the
stereo vision camera. The algorithm has to work in different environment to be used
in real world applications. The stereo vision algorithm is implemented to generate
disparity map of area. This helps to gain more information on environment, such as the
estimated distance of the lines, the distance of the vehicle to the turns. The experiment
result shows the detection of right and left lane on the road with disparity map to
determine an estimate of the distance of detected lanes from the stereo vision camera.
Parameter estimation of complex exponential signals corrupted by additive white
Gaussian noise (AWGN) is crucial in the study of distributed beamforming in a practical
scenario. Near zero (0) phase offset are expected at the receiver end which rely on the
smoothing and correction of the frequency and phase estimates. Neither
computational complexity nor the processing latency has an effect on the expected
zero phase offset but the estimation accuracy does. Thus, the maximum likelihood
estimator (MLE) using Fast Fourier Transform (FFT) approach is being considered for
cases with none and post processing in locating of the maximum peaks. Details on how
the phase estimates are arrived at is not always covered in literatures but explained in
the article. Numerical results obtained showed that global maximum peaks are arrived
at by employing a fine search with higher values of FFT.
Pork and bovine collagen incorporated into meat products showed promising
functional properties as food ingredients but has the halal issue. This study
investigated the effect of incorporating fish collagen hydrolysate (FCH) as a fat replacer
in buffalo patties in terms of proximate values, texture and colour properties. There
were five different formulations including a control (10% fat, 0% FCH), A (7.5% fat, 2.5%
FCH), B (5% fat, 5% FCH), C (2.5% fat, 7.5% FCH), and D (0% fat, 10% FCH). There were
no significant differences (p>0.05) between all formulations in terms of cooking yield,
shrinkage, water-holding capacity, and pH value. The sensory test showed no
significant difference (p>0.05) between all formulations in terms of colour,
appearance, juiciness, aroma, and overall acceptability, while sample D with 10% FCH
had significantly lower (p
In this paper, we demonstrate a modified scheme for solving the nonlinear KleinGordon
equation of PDE hyperbolic types. The Klein-Gordon equation is a relativistic
wave equation version of the Schrodinger equation, which is widely used in quantum
mechanics. Additionally, the nonstandard finite difference scheme has been used
extensively to solve differential equations and we have constructed a modified scheme
based on the nonstandard finite difference scheme associated with harmonic mean
averaging for solving the nonlinear inhomogeneous Klein-Gordon equation where the
denominator is replaced by an unusual function. The numerical results obtained have
been compared and showed to have a good agreement with results attained using the
standard finite difference (CTCS) procedure, which provided that the proposed scheme
is reliable. Numerical experiments are tested to validate the accuracy level of the
scheme with the analytical results.
Most of the previous researchers used conventional extraction technique such as steam distillation and solvent extraction method in Chromolaena Odorata extraction. Therefore, in this study a clean extraction method that is Supercritical Fluid Extraction (SFE) technology using supercritical carbon dioxide as a solvent (SC-CO2) was introduced for Chromolaena Odorata leaves extraction to produce oil of bioactive components. The objective of this research was to find the optimum pressure for the highest oil yield extracted. The extraction was conducted within a range of temperature (40, 45 and 50°C) and pressure (3000, 3500, 4000, 4500 and 5000psi), at a constant flowrate (24 ml/min) for 10, 20, 30, 40, 50 and 60 minutes of extraction time. From the studies, it was found that extraction pressure is an important factor that can affect the extraction yield where the oil yield increased as the pressure increased due to the increasing amount of CO2 consumed where it boost the density of the solvent to interact with the solute. The highest oil yield is 51.20% at pressure of 4000psi and temperature 50°C. Whereas at the highest pressure of 5000psi, the oil yield is the lowest. This shows that the extraction is not suitable at pressure 5000psi.