This review paper describes in general the use of VR as a training tool in manufacturing
technology like design, rapid prototyping, and manufacturing with some practical
examples where VR is used and its benefits in manufacturing industries which reduces
a lot of cost in the design stages to the finish stages. VR is the closest man can get to
reality as the names implies with the present capabilities. The technique enables
engineers and designers to move around and interact with the object in real time. This
review paper looks into some challenges of VR applications in manufacturing
industries.
Healthcare facilities in a hospital has diverse indoor cleanliness due to the different health
needs by the patients. Among the facilities, an operating room was identified as a critical space that
required high cleanliness environment. In recent years, an ISO 14644-1 Standard of Class 1 to Class 7
is prescribed in operating room for better particles concentration and airflow controlled. The objective
of this article is to review the assessment of airborne particles transportation and airflow distribution
in an operating room. This study shows that two main types of ventilation strategies have been widely
installed to control airborne particles trajectory, namely unidirectional airflow system and mixing
airflow system.
Urban Transit Network Design Problem (UTNDP) focuses on deriving useful set of
routes, manageable timetabling for each transit route and transit scheduling based on
available resources. UTNDP is commonly subdivided into Urban Transit Routing
Problem (UTRP) and Urban Transit Scheduling Problem (UTSP), respectively. There are
various approaches applied to solve the UTSP. The aim of this paper is to give a
comprehensive list of studies on UTSP that deals with metaheuristic approaches such
as Tabu Search, Simulated Annealing, Genetic Algorithm and their hybrid methods. This
review also addressed possible gaps of the approaches and the limitations of the
overall problem. It can be concluded that only some of the metaheuristic approaches
and sub-problems are highly studied in UTSP. This review will be useful for researchers
who are interested in expanding their knowledge and conduct research in UTSP using
metaheuristic approaches.
This paper presents the historical development of description on how the flapping
hydrodynamics of fishlike structure grows from infancy to the current state. The paper divides the
development into four phases; the Inception Phase, the Frozen Phase, the Revival Phase and the
Discovery Phase. The key quintessential characteristics that mark the advancement of different phase
would be highlighted and elucidated, with some consolidating comments on the future trends of
research areas.
Gas turbine cooling can be classified into two different schemes; internal and external
cooling. In the internal cooling method, the coolant provided by compressor is forced into the cooling
flow circuits inside turbine components. Meanwhile, for the external cooling method, the injected
coolant is directly perfused from coolant manifold to save downstream components from hot gases.
Furthermore, in the latter coolant scheme, coolant is used to quell the heat transfer from hot gas stream
to a component. There are several ways in external cooling. Film cooling is one of the best cooling
systems for the application on gas turbine blades. This study concentrates on the comparison of
experimental, computational and numerical investigations of advanced film cooling performance for
cylindrical holes at different angles and different blowing ratios in modern gas turbines.
This paper presents the housing improvement proposition in the Melaka resident area.Quality Function Deployment is used as a method to analyze customer behavior regarding customer requirement, satisfaction and comparison among the developers. By using this method, the main requirement by the buyer for their bungalow is their need of sufficient space to place their appliances in the house. At the end of the study, the details of buyer requirements are plotted into House of Quality, where it is believed to improve the quality of future bungalow house development in Melaka.
This review presents generally about Virtual Reality (VR) technologies in industrial
training. Virtual reality training is increasingly used for maintenance and operation,
assembly procedure, welding and operative construction training that allow the
workers to work on existing and new tasks in safe, and perceive on how an item takes
shape as it travels through the manufacturing system, which result more effective
training. For companies to spend the large amount of economic resources in training
people, thus VR systems for training may reduce in dealing with issues such as the high
economic costs of training for travel and living expenses for those who need to move
from work to training centers. An adaptive technology has been used for pilot training
and vehicle driver training that may improves accuracy of the procedure. VR training
could create a more effective and efficient learning even without the presence of a
trainer.
Malaysia is experiencing an encouraging socio-economic development, especially in its
quest towards Vision 2020 and achieving the status as a developed country. The success can be
attributed to the government’s efforts and commitment in developing projects, which include the
construction of new townships and public infrastructures. Through the implementation of
Environmental Management Plan (EMP) during the construction phase, the government has taken
great efforts and initiatives to ensure that construction projects are well-developed in a sustainable
manner. Unfortunately, these rapid physical developments affect and pollute the surrounding
environment, even though EMP is implemented at the construction site. The effectiveness of
sustainable construction methods in the plan has been found to be very limited in the actual industrial
practice. Hence, this paper aims to determine the important criteria needed to be incorporated into
EMP in enhancing and ensuring its effectiveness in managing environmental aspects during the
construction stage.
Dividend policy is one of the most important element to measure changes in stock
prices. The relationship between dividend policy and stock price volatility shows
different results based on different studies. This paper focuses on the relationship
between dividend policy and stock price volatility through seminal literature on both
theoretical and empirical evidences from 1989 to 2016. The various consequences of
this relationship depend upon each country specific characteristics, different data
sample and different methodology techniques which utilized by researchers in
developed and developing countries. Most of the studies found negative relationship
between dividend policy and stock price volatility, while developed countries have
more impact on this relationship as compared to developing countries. Based on the
prior literature, this paper argues that the relationship between dividend policy and
stock price volatility is inconsistent and the organization needs to decide the dividend
policy according to their capability and organizational culture.
The use of a sprinkler irrigation system is becoming more popular to reduce water
consumption and increase irrigation efficiency. Irrigation uniformity plays an important role in the
performance of the sprinkler irrigation system. The use of low operating pressure instead of high
operating pressure system offer many benefits including energy and water saving. An experimental
study was performed using two systems; a square 12x12 m system and a rectangular 10x12 m system
to investigate irrigation uniformity based on soil moisture content of the sprinkler irrigation system
under low operating pressure. In addition, irrigation uniformity was compared based on water
application and soil moisture content. In this study, different low operating pressures (62, 82, 102 and
122 KPa) were selected. Different nozzle diameters (4, 5, 6 and 7 mm) and different riser heights (0.5,
0.75, and 1.0 m) were also used. The soil moisture content uniformities of 10 min after irrigation are
more dependent on the initial soil moisture content uniformity than any other design factor. It is also
less influenced by water application uniformity.
The selection of landfill, which happens to be an environmental issue, has attracted
the attention of many researchers from the fields of waste management and
environmental sciences worldwide. Hence, in the attempt to overcome this problem,
some decision-making techniques, including Geographic Information Systems (GIS)
and Multi-Criteria Decision Analysis (MCDA), have been widely utilized in prior studies,
where multiple criteria, particularly in site selection process, have been employed.
With that, this article identifies the selection criteria for landfill selection and presents
a review concerning decision-making techniques that have been used in past studies
for two important phases involved during the process of site selection, namely, (1)
preliminary site screening, and (2) assessment of site suitability. As such, some 82
articles chosen from 34 peer-reviewed journals had been investigated in detail. The
results showed that 42.68% of the selected articles integrated GIS and MCDA
techniques to solve the problem of landfill site selection, and this is followed by
integrating GIS and fuzzy MCDA technique (18.29%). Both these techniques are indeed
powerful tools that can guide decision-makers to solve problems in making decisions
on the basis of various criteria under certainty and uncertainty results, mainly involving
environmental issues.
High quality of product and service is always demanded by customers. Conversely, poor
quality of product and service will result with customer dissatisfaction. However, this linear
relationship is no longer accurate due to the complexity nature of customer needs. Non-linear
relationship should be considered for more accurate evaluation of customer needs. This paper
presents a concept of Kano model and Quality Function Deployment (QFD) integration to evaluate
the non-linearity of customer needs towards the quality of products or services. By a case study, the
developed Kano-QFD model is validated with the theory of Kano model and found to have well
agreement. Further application for product development is recommended for future research.
The primary objective of control rod management is to ensure the safe, reliable and
optimum use of the nuclear fuel in the reactor, while remain within the limits imposed
by the design of the fuel assembly and reactor w.r.t the safety analysis. In numerous
reactors, the control rods perform the function of reactivity control, both globally and
locally, latter also control the power distribution of the core. Most control rods are
completely withdrawn from the core during operations and fully inserted during
shutdown of the reactor. This are the prove of an investigative study into optimization
of the heterogeneous control rods, the safety management of an additional safety rod,
and control rod drop hydrodynamic analysis which will be able to provide an efficient
and maximum safety procedure for emergency shut down system in the reactor. It is
also will be very important safety features of the reactor. To design the additional
safety rod at the inner irradiation sites with boron carbide (absorber material) and
stainless steel (clad) and also to design a simple heterogeneous control rod design to
analyse the effects of geometry self-shielding, the Monte Carlo Neutron Particle Code,
version 5 (MCNP5) was used. By simulating the unsteady flow field around the control
rod, the hydrodynamic analysis of the control rod can be analysed. A correlation based
on the achieved data was proposed to provide useful information on the safety
management during the research.
Muhammad Adil Khattak, Muhammad Zulhelmi Mahadi, Nurlaila Syamsul Bahri, Hor, Yen Tiu, Khairulnadzmi Jamaluddin, Muhammad Faiz Farhan Noorizhab, et al.
The objective of this review paper is to summarize the current state of understanding
on a topic ‘Nuclear spent fuel storage and facilities’. This review paper surveys and
summarizes previously published studies, rather than reporting new facts or analysis.
It is importance to case study this issue since the number of spent fuel are increasing
in which a typical nuclear power plant in a year generates almost 20 metric tons of
used nuclear fuel. In which the nuclear industry generates a total of about 2,000 - 2,300
metric tons of used fuel per year and for the last 40 years produced 76,430 metric tons
of nuclear spent fuel. Future understanding and attention need to be accomplished
since spent fuel can cause harm due to its high radioactive level and also the ability to
reprocess the fuel to be used as MOX fuel.
Offering inexpensive, widely available and safe method to evaluate the bone condition
as a prevention step to predict bone fracture which caused by Osteoporosis disease
makes ultrasound becomes an alternative method beside X-ray based bone
densitometry. Conventional quantitative ultrasound (QUS) applies the analysis of
attenuation and velocity to estimate bone health with several measurement
techniques which analyzes different types of ultrasound waves and bones. However,
most of the QUS results still does not match the accuracy of the Dual X-ray
absorptiometry due to the interaction of ultrasound and bone microstructure are not
fully exploited. The Biot’s theory has predicted that, porous medium like a cancellous
bone supporting two types of longitudinal wave known as fast and slow wave which
depends on the type of medium travelled. Both experiment and simulation were
conducted to investigate the correlation of fast and slow waves individually with a
variety of cancellous bone condition. Some of the analysis methods are based on
conventional QUS methods. The fast and slow wave relates more to the microstructure
of the cancellous bone compared to overall waves. In addition, overall waves had been
proven to consist of fast and slow wave and can be separated using Bayesian methods.
Overall waves also found to suffer artifact such as phase cancellation and negative
dispersion that could cause confusion in analyzing the parameters of ultrasound wave
with bone structure. In vivo application based on fast and slow wave analysis is able to
produce results based on mass density which can be compared directly and have high
correlation with X-ray based bone densitometry. The recent backscattered simulation
result indicates that, fast and slow waves can be reflected inside the cancellous bone
might offer a new method to evaluate bone especially in crucial skeletal parts.
Porous concrete technology has been used since 1970s in various parts of the United States
as an option in complex drainage systems and water retention areas. Porous concrete pavements have
become popular as an effective stormwater management device to control stormwater runoff in
pavement. Porous concrete pavement is being used as one of the solutions to decrease the stormwater
runoff by capturing and allowing rainwater to drain into the land surface. The main problem of porous
concrete pavement is its strength. The objective of this paper is to review the use and performance of
nano silica in porous concrete pavement and previous laboratory study on porous concrete pavement.
From the literature review, it was found that the conventional porous concrete pavement does not have
good strength for pavement purpose. An addition of nano-material will improve the physical and
chemical properties of porous concrete pavement. To improve the strength of the porous concrete,
various additives have been studied as a part of porous concrete mix and yet, the optimum condition to
produce good porous concrete has still not been established. From the previous study, it was found that
in preparing the porous concrete laboratory specimen, the use of standard Proctor hammer (2.5 kg)
and pneumatic press (70 kPa compaction effort) resulted in the closest properties to the field porous
concrete.
A summary of research on image visualization in fluid flow is presented. The review
addresses the topics of method in image processing, the application of particle image velocimetry and
different sensor source of tomography. One of the greatest challenges in image visualization research
is the improvement of flow measurement for multiphase flow. As there a lot of prediction in studying
multiphase flow, the selection of image visualization method has to be chosen carefully. The important
part is the method to process the image which consists of parameters to be studied. The improvement
in image visualization method is important to further applied to other area of process.
Issue related to safety, health and environmental has become major priority to be
concerned of in the transportation of hazardous materials (HAZMAT) worldwide. Due
to the high risk that entailed in the operation of HAZMAT transportation, many
accidents in this industry have been reported which include chemicals spillage, fire
and explosion. In order to quantify the degree of hazards and risks of these accidents,
various assessment methods have been introduced either by the academia, the
industry as well as the authority. The methods present various approaches for the
assessment, ranging from a simple to highly complicated ones depending on the
purpose of the assessment and the available resources and constraints. To date there
is yet any study conducted to review those available methods. This paper intends to
present a comprehensive review of the existing methods for hazards and risks
assessment of HAZMAT transportation between years 1995-2015 which considers
road, marine, railway, air and pipeline system. Based on careful screening of the
abundance of methods available, 151 of them were selected – that is those
specifically meant for hazards and risks assessment of HAZMAT transportation only.
The methods are reviewed in terms of the types of assessment; either qualitative,
quantitative or hybrid techniques, as well as their specific application in different
mode of transportation. Also, statistical analysis was performed to determine the
trend of past publications regarding on the type of journal, year of publication and
also financial support received in the context of hazard and risk assessment of
HAZMAT transportation.
Business strategy plays a key role in determining the success of organizations. In view
of its important role, studies have attempted to investigate the approaches adopted
by organizations to develop as well as implement their business strategy. As far as the
approaches to business strategy are concerned, the review of past studies indicates
that organizations tend to adopt different approaches. At the same time, questions
have been raised as to whether these strategic approaches are relevant and applicable
to all organizations, especially with regard to their emphasis, focus and scope. Based
on the literature, this paper reviews the most common approaches to business
strategy and identifies the differences in their emphasis, focus and scope.
Historically, there is evidence to suggest that communities in the developing countries
are still using plant-based materials as one of the strategies for purifying drinking
water. In this review, the coagulant properties of Moringa oleifera seeds extract were
quantitatively evaluated toward suitable wastewater treatment and examining its
coagulation mechanism. The seeds are rich in bio-active components and also used as
a natural coagulant for effective water treatment. The seeds extract operates
predominantly by bridging coagulation mechanism and operates through charge
neutralization. This natural ingredient of an organic polymer is essential as it contains
acrylamide monomers that are harmless to human’s health and lesser expensive as
compared to conventional chemicals since they are available in most rural
communities. The application of this readily available natural product as part of pointof-use
in water treatment technology may offer a practical, cheap, appropriate and
sustainable solution for producing potable water in some developing nations.