Your search keyword '"Siow Chun Lim"' showing total 76 results

1. Recent Progress in Floating Solar Photovoltaic Systems: A Review from Malaysia’s Perspective

Author

Siow Chun Lim, Mohammed M. F. Dawoud, Kwok Yew Hoe, and Wong Wai Yin

Subjects

floating solar photovoltaic, solar energy, renewable energy, environmental impact, lightning protection, Mechanics of engineering. Applied mechanics, TA349-359, Technology

Abstract

Floating solar photovoltaic (FPV) technology has been gaining popularity in various parts of the world to address the growing clean energy demand and land scarcity challenges posed by conventional solar PV installations. This paper presents a comprehensive review of the recent progress in FPV research and actual implementations, highlighting advancements, challenges, and future prospects in this dynamic and promising field in Malaysia.

Published

2024

2. Development of A Soil Resistivity Calculator

Author

Muhd Anas Ezhar and Siow Chun Lim

Subjects

soil resistivity, earthing, grounding, electrical safety, Mechanics of engineering. Applied mechanics, TA349-359, Technology

Abstract

Soil resistivity is an important parameter for designing electrical earthing system. The measurement of soil resistivity is greatly influenced by moisture content, temperature, porosity, degree of saturation, number of soil layer(s), and frequency of lightning current. Researchers have proposed various methodologies to provide an approximation of soil resistivity using the listed parameters. In order to ease the process of estimating soil resistivity at a particular area, there is a pressing need to devise a simple tool that enables the calculation of soil resistivity in the most accurate manner. As such, this research proposes a reliable tool for quick evaluation of soil resistivity based on variousmethodologies using Microsoft Excel’s built-in-functions and Visual Basic Application (VBA) Next, the developed tool was validated using two methods, in which the output value of the calculator was compared with data retrieved from IEEE Std 142-2007 and data reported in past studies. The validation results revealed that the developed calculator may serve as a significant application in future due to its time-saving and cost-effective attributes.

Published

2021

3. Potential of Small-wind Turbine for Power Generation on Offshore Oil and Gas Platforms in Malaysia

Author

Chee Sze Yan, Siow Chun Lim, and Chan Kah Yoong

Subjects

Small wind turbine, Offshore platform, micro-generation, Kerteh, wind energy, Environmental sciences, GE1-350, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

On most of the offshore oil and gas platforms, the current means of generating power are through the use of generators i.e. gas turbines and diesel power generators, or micro-generators for some smaller equipment. These generator sets are less reliable, especially on unmanned platforms. Hence, the deployment of renewable energy, such as the use of wind turbines, would be better for energy security, economic development and also protection of the environment. Instead of using wind power to power up the whole platform, small wind turbines can be utilised to power up some utilities and instrumentations on the platform, while having generators as back up, as the wind speed is beyond control. However, the capability of a small wind turbine in generating enough power is constantly under doubt as it is yet to be widely employed and only meagre data is available. This is caused by the issue of having insufficient studies regarding the implementation of small wind turbines for power generation on offshore oil and gas platforms. Hence, this paper studied the capability of small wind turbines for power generation on offshore platforms in Malaysia. Several models of small wind turbines were selected and their abilities in generating power to fulfil the annual energy consumption on a typical offshore platform were examined through precise calculations. The common offshore locations in Malaysia were identified and the average wind speeds from 2017 to 2019 at these locations were analysed. The result shows that certain models of small wind turbines are able to provide a significant amount of power for an offshore platform especially to power up the low power machineries. It was found that Kerteh, Terengganu is the most suitable offshore location to harness wind power due to its averagely high wind speed throughout the year. The highest amount of energy that can be produced was around 1445kWh per annum at Kerteh by the small wind turbine with the largest swept area and the lowest cut-in speed. This paper aims to serve as numerical validation on the plausibility of integrating small wind turbines for the generation of electricity on offshore platforms in Malaysia while also providing the recommended locations that are suitable for this region.

Published

2022

4. EMI radiation of power transmission lines in Malaysia [version 2; peer review: 2 approved]

Author

Mohd Zainal Abidin Ab Kadir, Azhan Fikry, and Siow Chun Lim

Subjects

EMI radiation, power transmission lines, EMF, ELF, public exposure limit, Right-of-Way, eng, Medicine, Science

Abstract

Background: There has been rising concern amongst the public regarding their home's proximity to high tension power transmission lines. The primary cause of fear is the impact of the electromagnetic interference (EMI) radiation on the nearby occupants' health. Despite the presence of national permissible limits of EMI radiation, there is still lack of information with regards to the EMI radiation of the types of power lines configuration in Malaysia. Methods: The electric and magnetic fields of several selected power transmission lines were simulated using the EMFACDC software program from the recommendation ITU-T K.90. Five types of power transmission lines available in Malaysia are considered. Results: It was found that the simulated electric and magnetic field levels at all the power lines' right of way (ROW) boundary complies with the prescribed exposure limit. However, the electromagnetic fields (EMF) level increases significantly as the separation distance is reduced from 30m. For a more conservative approach, the ROW can be set at 30m across all transmission voltage level and corridor area condition. Conclusion: It can be concluded that Malaysia's power transmission lines are within the prescribed exposure limits. To further minimize the electric and magnetic field level, it is recommended that the residential building should be built at least 30 meters away from the power transmission lines, especially for the 275kV double circuit, 275/132kV quadruple circuit, and 500kV double circuit lines.

Published

2022

5. Lightning Behaviour during the COVID-19 Pandemic [version 3; peer review: 2 approved]

Author

Fazandra Yusfiandika, Siow Chun Lim, Chandima Gomes, Aravind Chockalingam, and Lee Cheng Pay

Subjects

Medicine, Science

Abstract

Background COVID-19 has drastically dampened human activities since early 2020. Studies have shown that this has resulted in changes in air temperature and humidity. Since lightning activities are dependent on air temperature and humidity, this study is conducted to evaluate the correlation between the intensity of lightning activities with the atmospheric changes, and investigates the changes, in lightning activities due to atmospheric changes during the COVID-19 pandemic. Methods The hypothesis was tested through a t-test and Pearson’s correlation study. The variation trend of lightning strikes count (LSC) in Europe and Oceania during the five months COVID-19 lockdown period (March – July) compared to the same period in the previous five years from 2015 to 2019 is investigated. Results Statistical analysis shows the LSC in Europe and Oceania during the lockdown period dropped significantly by more than 50% and 44% respectively compared to the same period in previous five years. Furthermore, LSC was found to be positively correlated with air temperature and relative humidity in Europe. However, in Oceania, LSC seems to be only positively correlated with air temperature but negatively correlated with relative humidity. Conclusions This study seems to suggest that lightning activities have significantly changed during this pandemic due to reduction in human activities.

Published

2021

6. Lightning safety awareness level in Malaysia [version 2; peer review: 2 approved]

Author

Khairul Nazri, Siow Chun Lim, and Chandima Gomes

Subjects

Medicine, Science

Abstract

Introduction: Malaysia is one of the countries with the highest lightning flash density globally. While sufficiency of lightning protection system is crucial to ensure human safety against lightning strikes, the public awareness towards lightning safety is also equally important in Malaysia. Hence, this study was conducted to understand the current lightning safety awareness level of the Malaysian population. Methods: An online questionnaire survey which consists of 22 scientific statements of lightning was first developed in Malay and English. The questionnaire allows the respondent to also check their own score upon completion of the questionnaire. It was then distributed to the public for data collection. The sample size comprised of both genders, all layers of society from various educational level and social background. Results: Overall, the awareness on lightning safety amongst Malaysian is at moderate level with an average score of slightly above 50%. Urbanites scored marginally better than their rural counterparts. One’s education level does not dictate their awareness level of lightning safety. Discussion: In conclusion, the public in Malaysia needs to be better educated on lightning safety. Similar studies should be replicated in other countries experiencing similar levels of lightning activity to better understand the public’s perception on lightning.

Published

2021

7. An Integrated Lightning Risk Assessment of Outdoor Air-Insulated HV Substations

Author

Siow Chun Lim, Ong Chang Shen, and Ngu Eng Eng

Subjects

lightning risk assessment, high-voltage substation, integrated process, risk factors, IEC 62305-2, striking distance, Technology

Abstract

Although various lightning protection methods have been used in the industry, many outdoor high-voltage (HV) substations are still experiencing high failure rates due to lightning strikes. The applications of these rule-of-thumb-based methods generally lack coherence among the practitioners. IEC 62305-2 provides a systematic way for practitioners to assess the lightning risk for buildings or structures in a probabilistic way. However, this standard has not explicitly covered the application of HV substations. Moreover, IEC 62305-2 involves a tedious set of risk factors which may hinder many practitioners from applying the aforementioned standards while other preferred rule-of-thumb methods are available. As IEC 62305-2 does not specify the applicability to lightning risk assessment in HV substations, this paper proposes a novel approach to complement the standard-based risk assessment process. During this integrated risk assessment process, significant risks are identified, followed by ambiguous risks that will be adjusted in subsequent phases. The significant ambiguous risk factors such as fire load function (rf), environmental factor (CE), LPL class, and other governing factors have been analyzed and discussed. By adjusting these significant risk factors, the practitioners will understand the adjusted risk factors in relation to the practical implementation of lightning protection system (LPS). Therefore, integrating the substation characteristics, assumptions, and findings of ambiguous risk factors can result in a successful integrated lightning risk assessment process.

Published

2022

8. Empowered Pedagogy: Catching Up with the Future

Author

Chockalingam Aravind Vaithilingam, Reynato Andal Gamboa, and Siow Chun Lim

Subjects

Education

Abstract

Purpose - Recently, a layered and lateral framework that provides opportunities for students to design the pedagogy that creates a broad based, flexible and personalized learning is introduced by the Taylor’s University School of Engineering. This approach creates avenue for the students to design their own curriculum within the framework that is developed with inputs from the industry. The framework, the key components, and the tracking of the performance to align the set outcomes through assessment tool is presented. Methodology - My Study Plan (MySP) a macro-enabled software is used to develop a four-year tier model for the students to design the curriculum with the help of a mentor at the start of the programme. Student’s learning is monitored on a semester-based learning analytics process implementing the Programme Outcomes (PO) Scorecard. The August 2018 cohort of the Electrical and Electronic Engineering programme is used to pilot this pedagogy. Findings - Currently the PO measurement is done for the graduating student and focus only on the effectiveness of the programme. The Programme Outcome Assessment Review (POAS) used in this study to monitor the MySP the continual monitoring each semester rather towards the end of graduation. Initial simulation of existing PO attainment record of students suggest that this can generate interest towards the learning progress on a semester basis. Significance - The successful adoption sees an effectiveness in the long run in developing graduates through the continual monitoring of the programme outcomes. The graduating students carry the PO scorecard that complements a second transcript for value addition for their studies. Prospective employers can use the PO scorecard as a metric for initial recruitment purposes, a measure for the soft skills achievements of the applicant.

Published

2019

9. Comparative field assessment of grounding enhancement material for electrical earthing system.

Author

Lim Zhe Kang, Siow Chun Lim, Muhammad, Usman, Aman, Fazlul, and Nor, Normiza Mohamad

Subjects

EARTH resistance (Geophysics), COPPER sulfate, SALT, COPPER chlorides, PLANT-soil relationships

Abstract

Grounding enhancement material (GEM) is used to lower the earthing resistance value of a given earthing system. In this paper, a commercially available GEM is experimented at the field alongside with Sodium Chloride, Copper II Sulphate and planting soil. The well established Wenner's 4 pole method and fall of potential method was employed to measure the soil resistivity and earthing resistance respectively. It was found that the salts i.e., Sodium Chloride and Copper II Sulphate are superior in reducing the earthing resistance as reduction of more than 85% were observed. However, the commercial GEM has exhibited the most stable earthing resistance value over a period of 101 days, exhibiting the lowest standard deviation. This seems to suggest that the commercial GEM has superior moisture retention capability. This study also proven that Sodium Chloride can be dissolved by heavy downpour and replenishing it periodically is needed in a tropical country like Malaysia with regular thunderstorms and heavy downpours. [ABSTRACT FROM AUTHOR]

Published

2024

10. EMI radiation of power transmission lines in Malaysia [version 2; peer review: 2 approved]

Author

Azhan Fikry, Siow Chun Lim, and Mohd Zainal Abidin Ab Kadir

Subjects

Research Article, Articles, EMI radiation, power transmission lines, EMF, ELF, public exposure limit, Right-of-Way, ICNIRP

Abstract

Background: There has been rising concern amongst the public regarding their home's proximity to high tension power transmission lines. The primary cause of fear is the impact of the electromagnetic interference (EMI) radiation on the nearby occupants' health. Despite the presence of national permissible limits of EMI radiation, there is still lack of information with regards to the EMI radiation of the types of power lines configuration in Malaysia. Methods: The electric and magnetic fields of several selected power transmission lines were simulated using the EMFACDC software program from the recommendation ITU-T K.90. Five types of power transmission lines available in Malaysia are considered. Results: It was found that the simulated electric and magnetic field levels at all the power lines' right of way (ROW) boundary complies with the prescribed exposure limit. However, the electromagnetic fields (EMF) level increases significantly as the separation distance is reduced from 30m. For a more conservative approach, the ROW can be set at 30m across all transmission voltage level and corridor area condition. Conclusion: It can be concluded that Malaysia's power transmission lines are within the prescribed exposure limits. To further minimize the electric and magnetic field level, it is recommended that the residential building should be built at least 30 meters away from the power transmission lines, especially for the 275kV double circuit, 275/132kV quadruple circuit, and 500kV double circuit lines.

Published

2022

11. EMI radiation of power transmission lines in Malaysia [version 1; peer review: awaiting peer review]

Author

Azhan Fikry, Siow Chun Lim, and Mohd Zainal Abidin Ab Kadir

Subjects

Research Article, Articles, EMI radiation, power transmission lines, EMF, ELF, public exposure limit, Right-of-Way, ICNIRP

Abstract

Background: There has been rising concern amongst the public regarding their home's proximity to high tension power transmission lines. The primary cause of fear is the impact of the electromagnetic interference (EMI) radiation on the nearby occupants' health. Despite the presence of national permissible limits of EMI radiation, there is still lack of information with regards to the EMI radiation of the types of power lines configuration in Malaysia. Methods: The electric and magnetic fields of several selected power transmission lines were simulated using the EMFACDC software program from the recommendation ITU-T K.90. Five types of power transmission lines available in Malaysia are considered. Results: It was found that the simulated electric and magnetic field levels at all the power lines' right of way (ROW) boundary complies with the prescribed exposure limit. However, the electromagnetic fields (EMF) level increases significantly as the separation distance is reduced from 30m. For a more conservative approach, the ROW can be set at 30m across all transmission voltage level and corridor area condition. Conclusion: It can be concluded that Malaysia's power transmission lines are within the prescribed exposure limits. To further minimize the electric and magnetic field level, it is recommended that the residential building should be built at least 30 meters away from the power transmission lines, especially for the 275kV double circuit, 275/132kV quadruple circuit, and 500kV double circuit lines.

Published

2021

12. The adoption of IEC 62305 standards for lightning protection system in Malaysia: a success story

Author

Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Jasni, Jasronita, Gomes, Chandima, Muluk, Iffah Hannah, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Jasni, Jasronita, Gomes, Chandima, and Muluk, Iffah Hannah

Abstract

This manuscript provides an overview of the adoption of the IEC 62305 standards for lightning protection systems (LPS) in Malaysia. It outlines the need for LPS in Malaysia by providing general lightning statistics, historical changes and adoption in LPS standards. For the first time, the manuscript explains the key reasons for the success of this transition of IEC 62305, which is now being regulated by the Energy Commission of Malaysia (EC). As the Regulator for energy and gas in Malaysia, EC has successfully transformed the standards into regulations by issuing the Directive paper in 2020, taking a big leap from its initial release as a Circular in 2011. Finally, it highlights the way forward in creating a culture of self-regulation among industrial players in Malaysia.

Published

2023

13. On the Potential of Solar Energy for Chemical and Metal Manufacturing Plants in Malaysia.

Author

Ang Yong Kian and Siow Chun Lim

Subjects

SOLAR energy, CHEMICAL energy, POTENTIAL energy, ENERGY consumption, CLEAN energy, FACTORIES, SOLAR power plants

Abstract

The manufacturing sector constitutes a cornerstone of Malaysia's economic landscape, significantly contributing to the nation's Gross Domestic Product (GDP). This pivotal role, however, is accompanied by substantial energy requirements, placing the manufacturing sector among the highest energy consumers across various industries in the country. This study primarily focuses on assessing the solar energy potential within the manufacturing sector. The objectives encompass two key facets: firstly, simulating the attainable energy yield from a photovoltaic (PV) system integrated into manufacturing industry facilities, and secondly, evaluating whether the PV system's generated electricity aligns with the energy requirements of selected manufacturing sectors, namely chemical and metal manufacturing plants. Sixteen companies have been selected from the chemical and metallurgical sectors for this study. The design process for the solar photovoltaic systems within these facilities necessitates determining the factory's location and rooftop area. Additionally, assessing the total savings is imperative to gauge the viability of the solar energy generated by these manufacturing plants. Among the 16 companies analyzed, intriguingly, 5 companies have demonstrated the capacity to fully transition to solar energy to cater to their energy needs. Notably, one of these companies can harness solar power to meet an impressive 179.91% of their energy demand by optimizing available space for solar power generation. This transition could potentially translate into substantial savings exceeding RM1 million in electricity costs. [ABSTRACT FROM AUTHOR]

Published

2023

14. Sensitivity Analysis of the Parameters for Lightning Risk Assessment

Author

Siow Chun Lim, Omar Abdelaziz Hashem Mohamed, and Chandima Gomes

Published

2022

15. Smart power switch using internet of things

Author

Abdulaziz Khalid Eid Abougamea and Siow Chun Lim

Subjects

Smart switch, Internet of things, Control and Optimization, Energy monitoring, Computer Networks and Communications, Hardware and Architecture, Signal Processing, Energy management, Smart power plug, Electrical and Electronic Engineering, Information Systems

Abstract

The increase in electricity consumption coupled with the lack of a convenient way to assist the consumers to lower their electricity consumption is a growing concern. Smart internet of things (IoT)-based devices has been developed in this regard. However, no specific standards were followed, and this is a problem for the consumer as they have to own different smart device from different brands which results in higher cost. To solve these issues, a smart power switch using IoT is proposed. The system consists of microcontroller (ESP32), relay and current sensor (ACS712). The ACS712 measures the current of the appliance. The ESP32 then send these readings to server. Whenever the ESP32 receives switching commands from the cloud platform, ESP32 will activate the relay and hence switching the appliance. The cloud platform is linux based virtual private server (VPS) running on Django Python and structured query language (SQL) ite database. The mobile application built using flutter to allow both iOS and android users to use the app to control and monitor the normal appliances. The server, circuit and mobile application have showed a real-time data exchange, fast response, numerical, graphical consumption presentation and capable of setting energy or power limit for the appliance to not exceed.

Published

2023

16. On the application of hollow conductor as electrical earthing electrode

Author

Siow, Chun Lim, Tuan Mohamad, Tuan Haziq Arif, Gomes, Chandima, Wan Ahmad, Wan Fatinhamamah, Siow, Chun Lim, Tuan Mohamad, Tuan Haziq Arif, Gomes, Chandima, and Wan Ahmad, Wan Fatinhamamah

Abstract

Earthing is essential for electrical installations to safeguard safety of humans and electrical equipment. Vertically driven solid copper electrode is a widely practiced earthing method due to its simplicity and cost effectiveness. With the rising price of copper, the need for cost optimisation is imperative. In this project, hollow copper electrode is being experimented as an earthing electrode. Solid copper electrode is used as reference and vertically driven side by side with hollow copper electrode at two sites with uniform yet contrasting soil resistivity. Earth resistance of both setups was measured regularly using Fall of Potential method. It was found that the earth resistance of hollow copper electrode is tend to be lower than solid copper electrode. This preliminary finding suggests that a more effective earthing system can be achieved with less material and further studies with prolonged period of measurement is required to ascertain the initial conclusion drawn and presented in this paper

Published

2022

17. Development of A Soil Resistivity Calculator

Author

Ezhar, Muhd Anas, primary and Siow, Chun Lim, additional

Published

2021

18. Lightning Risk Assessment of Selected Buildings in Cyberjaya: A Case Study

Author

Hasan E.H. Abulaban, Siow Chun Lim, and Mohammed Hussein Saleh Mohammed Haram

Published

2021

19. Lightning Behaviour during the COVID-19 Pandemic

Author

Yusfiandika, Fazandra, primary, Siow, Chun Lim, additional, Gomes, Chandima, additional, Chockalingam, Aravind, additional, and Cheng Pay, Lee, additional

Published

2021

20. Lightning safety awareness level in Malaysia

Author

Nazri, Khairul, primary, Siow, Chun Lim, additional, and Gomes, Chandima, additional

Published

2021

21. Analysis of the design calculations for electrical earthing systems

Author

Yousef Al-Shawesh, Mutaz Nujaim, and Siow Chun Lim

Subjects

Hazard (logic), Total resistance, Computer science, Ground, earthing systemy, soil resistivity, 020209 energy, 020208 electrical & electronic engineering, Soil resistivity, 02 engineering and technology, Earthing system, Fault (power engineering), Physics::Geophysics, Reliability engineering, Physics::Space Physics, 0202 electrical engineering, electronic engineering, information engineering, resistance calculations, Astrophysics::Earth and Planetary Astrophysics, Electrical and Electronic Engineering, Electrical conductor, electrical safety standards

Abstract

Earthing systems play an essential role in electrical systems in terms of safety for people in the vicinity against the hazard of electric shocks as well as protection and proper operation of equipment during the incidence of faults. Both are achieved by providing a low-impedance path that can dissipate fault currents to the conductive mass of Earth. One of the first steps in the design of an earthing system is estimating the total resistance to earth and determining the proper size and basic layout of the earth electrode required. Engineers must design adequate earthing systems that comply with international standards and national regulations, which in fact incorporate a variety of earthing methods and various formulae to obtain the design parameters, especially the earthing resistance. The effects of using the varied formulae for each earthing technique are ambiguous and entail considerable risks, and thus require comprehensive compilations and critical examinations. This paper reviews many of the earthing design formulae available in widely used international standards and published scientific papers for a comparative analysis of their differences. The results of a rigorous survey for each earthing type, based on respective electrical resistances’ calculations evaluated for a specified range of resistivities, are presented in line graphs to show precise trends. A recommended list of the most conservative formulae from a safety perspective, based on the results obtained, is outlined as a basis for computing the earthing resistance for designing effective earthing systems. This provides a beneficial compact reference to facilitate the revision and provision of international earthing standards agreement.

Published

2021

22. Reliable Broken Conductor Fault Detection for Low Volt Interconnected Distribution Lines

Author

Naveen Palanichamy, Jayanthi Nishanth, and Siow Chun Lim

Subjects

business.industry, Computer science, Electrical engineering, High voltage, Hardware_PERFORMANCEANDRELIABILITY, Transmission system, Fault (power engineering), Fault detection and isolation, High impedance, Electric power transmission, Hardware_INTEGRATEDCIRCUITS, business, Low voltage, Circuit breaker

Abstract

In developing countries like India, most of the low voltage distribution lines feeder are connected via overhead power lines. Such distribution systems, including radical type and low voltage Interconnected networks, face difficulties in fault detection and localization as compared with high voltage transmission systems. One such fault is the broken conductor of live wires, which could cause high impedance current to flow on the ground or object. These faults usually produce very low fault currents, due to low voltage or dry areas, that are usually not detectable by the feeder conventional over-current protection schemes or by the HIF fault detector. As a result, fault detection in Low voltage (LV) overhead lines, due to open (or broken) conductors, is the most challenging problem in interconnected networks as compared to radical feeders. The aim of this paper is to identify a new method to detect such broken conductors in interconnected LV distribution and correctly automates the circuit breaker during faults. The proposed broken conductor fault detection method judges fault based on multiple information to increase accuracy and reliability of trip signal. The trip signal, based on the calculated measurements from the fault finding devices, will be provided to the circuit breaker. Finally, the proposed intelligent electronic devices installed at the bus Circuit Breaker Validates the trip signal before the power completely goes off. Several test cases were simulated to demonstrate the effective results.

Published

2020

23. Recent Progress on Lightning Risk Assessment and its Applications in Malaysia

Author

Abulaban, Hasan E. H., primary and Siow, Chun Lim, additional

Published

2021

24. Lightning safety awareness level in Malaysia

Author

Siow Chun Lim, Khairul Nazri, and Chandima Gomes

Subjects

Male, Rural Population, media_common.quotation_subject, Awareness level, Computer-assisted web interviewing, lightning myth, Lightning, General Biochemistry, Genetics and Molecular Biology, Surveys and Questionnaires, Perception, Humans, General Pharmacology, Toxicology and Pharmaceutics, Socioeconomics, media_common, Malay, Data collection, General Immunology and Microbiology, Malaysia, Articles, General Medicine, language.human_language, Lightning strike, lightning safety, Respondent, language, Female, public belief, Psychology, Research Article

Abstract

Introduction: Malaysia is one of the countries with the highest lightning flash density globally. While sufficiency of lightning protection system is crucial to ensure human safety against lightning strikes, the public awareness towards lightning safety is also equally important in Malaysia. Hence, this study was conducted to understand the current lightning safety awareness level of the Malaysian population. Methods: An online questionnaire survey which consists of 22 scientific statements of lightning was first developed in Malay and English. The questionnaire allows the respondent to also check their own score upon completion of the questionnaire. It was then distributed to the public for data collection. The sample size comprised of both genders, all layers of society from various educational level and social background. Results: Overall, the awareness on lightning safety amongst Malaysian is at moderate level with an average score of slightly above 50%. Urbanites scored marginally better than their rural counterparts. One’s education level does not dictate their awareness level of lightning safety. Discussion: In conclusion, the public in Malaysia needs to be better educated on lightning safety. Similar studies should be replicated in other countries experiencing similar levels of lightning activity to better understand the public’s perception on lightning.

Published

2021

25. Development of a Mobile Design Template for Substation Earthing System

Author

Mohamed Najib Harami and Siow Chun Lim

Subjects

Computer science, business.industry, Process (engineering), Mobile apps, JavaScript, Earthing system, Mobile design, High availability, Design process, Internet of Things, business, Software engineering, computer, computer.programming_language

Abstract

Electrical engineers often find the process of designing the earthing system of substations to be tedious, arduous and time consuming. Mobile apps development and usage has been on the rise of late due to the high availability of smart phones and Internet of Things. In terms of electrical earthing system design, there are very few applications available which are neither helpful nor informative. Hence, this paper outlines the development of a mobile application which is able to assist and ease electrical engineers’ design process. Functionality and validity of the app has been verified by comparing calculations obtained manually and by the app. Hence, this app can be used for the design and verification of an earthing system.

Published

2019

26. Empowered pedagogy: catching up with the future

Author

Vaithilingam, Chockalingam Aravind, Gamboa, Reynato Andal, Siow, Chun Lim, Vaithilingam, Chockalingam Aravind, Gamboa, Reynato Andal, and Siow, Chun Lim

Abstract

Purpose - Recently, a layered and lateral framework that provides opportunities for students to design the pedagogy that creates a broad based, flexible and personalized learning is introduced by the Taylors University School of Engineering. This approach creates avenue for the students to design their own curriculum within the framework that is developed with inputs from the industry. The framework, the key components, and the tracking of the performance to align the set outcomes through assessment tool is presented. Methodology - My Study Plan (MySP) a macro-enabled software is used to develop a four-year tier model for the students to design the curriculum with the help of a mentor at the start of the programme. Students learning is monitored on a semester-based learning analytics process implementing the Programme Outcomes (PO) Scorecard. The August 2018 cohort of the Electrical and Electronic Engineering programme is used to pilot this pedagogy. Findings - Currently the PO measurement is done for the graduating student and focus only on the effectiveness of the programme. The Programme Outcome Assessment Review (POAS) used in this study to monitor the MySP the continual monitoring each semester rather towards the end of graduation. Initial simulation of existing PO attainment record of students suggest that this can generate interest towards the learning progress on a semester basis. Significance - The successful adoption sees an effectiveness in the long run-in developing graduates through the continual monitoring of the programme outcomes. The graduating students carry the PO scorecard that complements a second transcript for value addition for their studies. Prospective employers can use the PO scorecard as a metric for initial recruitment purposes, a measure for the soft skills achievements of the applicant.

Published

2019

27. Performance comparison of fixed and single axis tracker photovoltaic system in large scale solar power plants in Malaysia

Author

Baraa Mahmoud Dawoud and Siow Chun Lim

Subjects

Control and Optimization, Scale (ratio), Computer Networks and Communications, business.industry, Photovoltaic system, Capacity factor, Single axis tracker system, Automotive engineering, Renewable energy, Nameplate capacity, Hardware and Architecture, Performance comparison, Signal Processing, Single axis, Environmental science, Electrical and Electronic Engineering, business, Fixed system, Photovoltaic, Large scale solar, Solar power, Information Systems

Abstract

Malaysia is rapidly expanding the generation capacity of solar power through large scale solar (LSS) projects with the aim to achieve 20% renewable energy mix by 2025. This has motivated many solar industry players to explore the usage of solar PV with single axis tracker (SAT) system. However, many are still hesitant due to the lack of understanding on the comparative performance between fixed mounted solar PV with solar PV with SAT system. This paper aims to provide a comparative analysis on the performance of both systems. Simulation using PVSyst 6.83 was performed in five potential LSS sites spread across Peninsular Malaysia in Perlis, Kelantan, Pahang, Selangor and Johor with the same installed capacity of 10.32MWp. The energy yield and capacity factor for 21 years were simulated. On the average, it was found that SAT outperforms fixed mounted solar PV system by 15.08% based on their performance on their first year operation.

Published

2021

28. Behaviour of a New Material that Improves Ufer Grounding Practice

Author

Siow Chun Lim, Chandima Gomes, and Mohd Zainal Abidin Abdul Kadir

Subjects

bentonite, concrete, ufergrounding, lcsh:Electrical engineering. Electronics. Nuclear engineering, electrode, lcsh:TK1-9971, Grounding

Abstract

In sites with high soil resistivity such as deserts and mountainous terrains, designing and installing an effective grounding system is a challenging task. Therefore introduction of Bentonite into concrete mix of Ufer grounding at various proportions was done in a previous study and its steady state ground resistance performance was investigated. In that study, itwas found that 30% Bentonite-concrete mix is the optimum compound which yields the lowest average ground resistance with the least fluctuation as well. Subsequent study at site with high soil resistivity found that its performance is among the best compared with several conventional setups. In current work, such mix and the standard concrete mix were installed in five sites with varying soil resistivity to determine the correlation between ground resistance and localized soil resistivity. These correlations serve as a guide for future applications by engineers in designing grounding system using the best mix.

Published

2016

29. Development of a Template for the Risk Assessment for Lightning Protection System Design based on

Author

Mohamad Adib Ahmad Fathi, Ir. Lee Cheng Pay, and Siow Chun Lim

Subjects

User Friendly, Software, Computer science, business.industry, Lightning protection system, Visual Basic for Applications, User interface, business, Risk assessment, Risk management, Reliability engineering, Coding (social sciences)

Abstract

MS IEC 62305: Protection Against Lightning standard serves as the main reference for lightning risk assessment and lightning protection design and installation in Malaysia. Lightning risk assessment is complex and complicated to be used manually. A computer tool or software could simplify the work in lightning risk assessment. A template was developed in Microsoft Excel for lightning risk assessment. The development focused on features such as userfriendly interface, multiple zone and service calculation capability, comprehensive, informative, and able to suggest protection measures. All calculations and parameters for risk calculation were identified from MS IEC 62305-2: Risk Management. The calculations and interactive user interface were made using Excel’s built in functions and coding in VBA. The template was validated through comparison of results between the template, MS IEC 62305-2, and other software such as SIRAC and RISK in three different case studies. In all three case studies, the template achieves results similar to the results in IEC 62305-2.

Published

2018

30. Analysis of the Design Calculations for Electrical Earthing Systems.

Author

Al-Shawesh, Yousef, Siow Chun Lim, and Nujaim, Mutaz

Subjects

EARTH resistance (Geophysics), ELECTRIC shock, FAULT currents, SYSTEM safety, ENGINEERING design

Abstract

Earthing systems play an essential role in electrical systems in terms of safety for people in the vicinity against the hazard of electric shocks as well as protection and proper operation of equipment during the incidence of faults. Both are achieved by providing a lowimpedance path that can dissipate fault currents to the conductive mass of Earth. One of the first steps in the design of an earthing system is estimating the total resistance to earth and determining the proper size and basic layout of the earth electrode required. Engineers must design adequate earthing systems that comply with international standards and national regulations, which in fact incorporate a variety of earthing methods and various formulae to obtain the design parameters, especially the earthing resistance. The effects of using the varied formulae for each earthing technique are ambiguous and entail considerable risks, and thus require comprehensive compilations and critical examinations. This paper reviews many of the earthing design formulae available in widely used international standards and published scientific papers for a comparative analysis of their differences. The results of a rigorous survey for each earthing type, based on respective electrical resistances' calculations evaluated for a specified range of resistivities, are presented in line graphs to show precise trends. A recommended list of the most conservative formulae from a safety perspective, based on the results obtained, is outlined as a basis for computing the earthing resistance for designing effective earthing systems. This provides a beneficial compact reference to facilitate the revision and provision of international earthing standards agreement. [ABSTRACT FROM AUTHOR]

Published

2021

31. Conceptualising Humour to Enhance Learning Among Engineering Undergraduates

Author

Siow Chun Lim and Swi Ee Cheah

Subjects

Engineering education, Scale (social sciences), Perception, media_common.quotation_subject, Pedagogy, ComputingMilieux_COMPUTERSANDEDUCATION, ComputingMilieux_PERSONALCOMPUTING, Context (language use), Psychology, Attention span, media_common

Abstract

One of the challenges faced by engineering educators in the twenty-first century is delivering content heavy and discipline-specific modules to students with ever-shortening attention span. This paper argues that incorporating humour in teaching may be more effective than the traditionally didactic nature of teaching and learning in the engineering discipline. Yet, instructional humour in engineering education is a field that is still relatively unexplored compared to other fields of education. In this study, a review on the theories supporting the foundation of humour will be outlined. Types of humour deemed applicable in the context of delivery for engineering courses are then identified and discussed in relation to issues concerning humour in teaching. This paper will also discuss the preliminary findings from a study conducted to understand engineering lecturers’ perceptions towards application of humour in their instructional delivery. It is concluded that a basic humour engagement scale could be adopted to enable lecturers in conducting self-assessments on the incorporation of humour in their instructional delivery.

Published

2017

32. The Journey of TGCSP with Special Attention on Service Learning

Author

Siow Chun Lim, Chockalingam Aravind Vaithilingam, and Satesh Namasivayam

Subjects

Multimedia, Holistic education, Survival of the fittest, media_common.quotation_subject, Service-learning, Certification, computer.software_genre, Engineering education, Perception, Engineering ethics, Psychology, computer, Curriculum, Grand Challenges, media_common

Abstract

Service learning has picked up momentum in the engineering education field over the past decade due to its two pronged benefits to the students’ learning experience as well as to the community. While it is usually embedded within the curriculum in terms of execution, the Taylor’s Grand Challenge Scholars Programme (TGCSP) runs it in parallel with formal curriculum. TGCSP was developed to nurture holistic engineers capable of addressing the grand challenges defined by the National Academy of Engineering (NAE), USA, which stand in the way for humankind’s survival of the next century. Service learning is the fifth programme outcome (GCPO5) of TGCSP which scholars must attain in order for them to be able to graduate with TGCSP certification which is endorsed by NAE. This paper outlines the structure of implementation and assessment of GCPO5. In addition, the scholars’ perception on how their journey towards attainment of GCPO5 has impacted their learning experience will also be discoursed.

Published

2017

33. Electrical earthing in troubled environment

Author

Siow Chun Lim, Mohd Zainal Abidin Ab Kadir, and Chandima Gomes

Subjects

Resistive touchscreen, Engineering, Ground, business.industry, Soil resistivity, Energy Engineering and Power Technology, Structural engineering, Earthing system, Lightning, Corrosion, Geotechnical engineering, Transient (oscillation), Electrical and Electronic Engineering, Antenna (radio), business

Abstract

Practical challenges of electrical earthing in both steady and transient states have been revisited. By analyzing the cases based on theoretical and practical aspects, engineering guidelines are proposed to develop suitable solutions. Less complicated cases can be approached with various electrode configurations such as multiple ring, antenna, crow-foot and centipede arrangements. Distributed earthing arrangements treated with backfill materials are suitable for the sites with extremely high resistive soil. Clay based backfill materials such as bentonite-mix give corrosion and erosion protection for the electrodes in highly acidic, alkaline, saline and sulfur-rich environments apart from reducing the low frequency resistance. On-rock sites such as transmission and communication towers are better approached with concrete-based earthing systems in both cases of power and lightning protection earthing. Extreme cases of soil instability have been identified and discussed. The suitability of vertical and horizontal electrode components as well as copper and steel electrodes under various soil conditions is also discoursed. For most cases, we recommend all types of earthing systems to be integrated, however, properly coordinated system of Surge Protective Devices (SPDs) should be incorporated in such integrated earthing system.

Published

2013

34. Effect of moisture on electrical response of sand and clay under high impulse voltage applications

Author

Siow, Chun Lim, Johari, Mohd Syariffuddin, Gomes, Chandima, Siow, Chun Lim, Johari, Mohd Syariffuddin, and Gomes, Chandima

Abstract

Soil plays an important role in ground designing. Engineers normally consider only soil resistivity under normal or steady state condition when designing the grounding system. Under certain circumstances such as lightning, electrical response of the soil will change accordingly and thus, the performance of the grounding system will be affected. The purpose of this study is to investigate the effect of moisture content on the electrical behaviour of sand and clay under high impulse voltage condition. Both soil samples are dried in the oven at 110 ± 5°C to remove the water content until became 0%. The samples are subjected to 30 shots of standard (1.2/50µs) lightning impulse voltage for both positive and negative impulse polarities. This is followed by moistening the samples with 5% amount of water over the volume of the samples. The corresponding V50% for both sand and clay was calculated and the value obtained was converted to standard atmospheric condition. The voltage at breakdown and time to breakdown for each soil sample was analysed a statistical analysis conducted for these two parameters to determine if type of soil and moisture content have an effect on the breakdown voltage. In general, it was found that clay is more efficient in neutralising high impulse voltage than sand likely due to the former's low resistivity and porosity.

Published

2017

35. Assessment and Feedback in the Final-Year Engineering Project

Author

Siow Chun Lim and Douglas Tong Kum Tien

Subjects

Medical education, Engineering, Supervisor, Process (engineering), business.industry, Assessment for learning, Work (electrical), Engineering education, Component (UML), ComputingMilieux_COMPUTERSANDEDUCATION, Systems engineering, business, Curriculum, Accreditation

Abstract

The final-year project (FYP) is considered to be one of the most important learning experiences in an engineering undergraduate education. It is mandated by engineering accreditation bodies worldwide as a compulsory module in the engineering curriculum. For most fresh graduate engineers, their final-year project experience will be the most vivid of all their recent memories when they recall their engineering education experience. This is due to the immense challenge the students face by undertaking for the very first time an individual, highly complex, open-ended research work with tight deadlines to meet and high expectations to attain on their own, albeit under the guidance of their supervisors. As such the FYPs’ delivery and assessment process offer strategic opportunities for engineering educators to add value to an undergraduate engineer’s training provided that it is designed and implemented with a clear intent. This paper documents the assessment approach adopted by School of Engineering, Taylor’s University, for the FYP module which is divided into the FYP1 and FYP2 modules covering two semesters. This assessment process is distinct from the practices at many other equivalent institutions in that it has as much as 6 assessment components for each module, assessors other than the supervisor contribute the bulk of the marks, timely feedback from assessors to students is fully integrated into the assessment process to facilitate learning and students are required to participate in a research conference which is also made into one of the assessment components. For this undergraduate conference, the students’ FYP research papers are reviewed by external reviewers from other universities and assessed and awarded marks by them. A detailed description of each assessment component followed by an evaluation of how each assessment component adds value to the students’ learning for both the FYP1 and FYP2 modules is discussed.

Published

2016

36. Behaviour of a new material that improves ufer grounding practice

Author

Siow, Chun Lim, Gomes, Chandima, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Gomes, Chandima, and Ab Kadir, Mohd Zainal Abidin

Abstract

In sites with high soil resistivity such as deserts and mountainous terrains, designing and installing an effective grounding system is a challenging task. Therefore introduction of Bentonite into concrete mix of Ufer grounding at various proportions was done in a previous study and its steady state ground resistance performance was investigated. In that study, itwas found that 30% Bentonite-concrete mix is the optimum compound which yields the lowest average ground resistance with the least fluctuation as well. Subsequent study at site with high soil resistivity found that its performance is among the best compared with several conventional setups. In current work, such mix and the standard concrete mix were installed in five sites with varying soil resistivity to determine the correlation between ground resistance and localized soil resistivity. These correlations serve as a guide for future applications by engineers in designing grounding system using the best mix.

Published

2016

37. Effects of the presence of insulated and non-insulated floating electrodes on side flashing

Author

Chandima Gomes, M. Izadi, M. Z. A. Ab Kadir, Ghasem Nourirad, and Siow Chun Lim

Subjects

Lightning strike, Materials science, business.industry, Electrode, Electric breakdown, Electrical engineering, Thunderstorm, Mechanics, Floating electrode, Lightning arrester, Flashing, business, Lightning

Abstract

Metallic part would play an influential role in the case of probability of lightning strikes. An experimental study has been done to find out the effect of the presence of floating electrode on the body during thunderstorm. Although, it is clear that a small metal part on the body or in vicinity does not have effect during direct strike, the effects has been examined only in the case of side flashing. SPSS has been used to check the statistical significance of the probability. According to the result, floating electrode may shorten the gap distance of the struck point and a human body thus increasing the probability of lightning side flashing. The test has been done covered floating electrode (insulated) as well. Thus, it is recommended to either remove or isolate the metal parts during thunderstorm.

Published

2014

38. Significance of localized soil resistivity in designing a grounding system

Author

Ghasem Nourirad, Chandima Gomes, Mohd Zainal Abidin Ab Kadir, and Siow Chun Lim

Subjects

Engineering, Ground, business.industry, Current practice, Soil resistivity, Geotechnical engineering, Power engineering, Earthing system, business, Sizing

Abstract

The value of soil resistivity is an essential pre-requisite in designing an electrical grounding system. The current practice, as advocated even by national/international standards involves taking the average soil resistivity of the site as the parameter to be considered in designing the grounding system. This study shows that average soil resistivity may lead to significant overestimation or underestimation in the designing process as the localized soil resistivity may significantly differ from the average soil resistivity of the entire site. At least 14% difference between average and localized soil resistivity were obtained base on measurements done on five locations. Therefore, it is suggested that electrical engineers who design grounding systems should first identify the locations where the components of the grounding systems will be installed. Then, the localized soil resistivity at that particular point should be measured and the sizing and geometry of the grounding electrode should be designed accordingly.

Published

2014

39. Environmental effects on the performance of electrical grounding systems

Author

Chandima Gomes, Mohd Zainal Abidin Ab Kadir, Siow Chun Lim, and Lee Weng Choun

Subjects

Engineering, Grounding electrodes, Ground, business.industry, Electrode, Soil resistivity, Ground resistance, Geotechnical engineering, Earthing system, business, Grounding resistance

Abstract

Effects of surrounding environment of grounding electrode locations on the performance of overall grounding system has been studied. Copper rods were buried at 25 different locations with various environmental settings and their respective variations in grounding resistance were monitored for up to 4 months. It was found that there is a clear dependence of grounding resistance on the condition of surrounding environment, in addition to the average soil resistivity. Installation of grounding electrodes near running waterways, huge trees as well as slopes should be avoided wherever possible as the ground resistance of electrodes in such environments may fluctuate significantly with time.

Published

2013

40. Preliminary results of the performance of grounding electrodes encased in bentonite-mixed concrete

Author

Mohd Zainal Abidin Ab Kadir, Siow Chun Lim, Chandima Gomes, and S. D. Buba

Subjects

Grounding electrodes, Materials science, Soil resistivity, Bentonite, Geotechnical engineering, Composite material, Earth (classical element), Land mass

Abstract

Earth resistance of buried steel cages, encased in bentonite mixed concrete has been investigated. A reference pit was constructed with steel cage encasing in ordinary concrete. The land mass of the site has somewhat uniform surface soil resistivity which is in the range of 100 Ωm. The performance of earth resistance in each electrode has been measured for five months. The results show that for the first month, the lowest earth resistance and the highest decrement in earth resistance are shown by the pit with concrete having 20% bentonite. However, for the following four months, pits with bentonite mixed concrete showed increased earth resistance compared to the reference pit. These results indicate that the long-term reduction in earth resistance in electrodes encased with bentonite, as observed in previous studies, is not the case with electrodes embedded in bentonite mixed concrete. The initial reduction of earth resistance observed at pits with bentonite mixed concrete may most probably be due to the presence of hydrated bentonite which is not mixed with other constituents of concrete. Other than the pits with 20% and 70% bentonite, the outcome of this research thus far reaffirms the capability of concrete blocks to maintain earth resistance with small fluctuation.

Published

2012

41. Ambiguity of grounding specifications: IEC 62305 revisited

Author

Mohd Zainal Abidin Ab Kadir, Siow Chun Lim, Jasronita Jasni, and Chandima Gomes

Subjects

Resistive touchscreen, Engineering, Ground, business.industry, Soil resistivity, Electrical engineering, Transient (oscillation), Lightning arrester, business, Electrical impedance, Lightning, Electrical conductor

Abstract

Grounding issues related to lightning currents have been addressed giving special attention to recommended practices in IEC 62305 (2010). Unambiguous recommendations are needed for the requirement of type A system or type B system or both systems for a given installation. Specifications of the length of conductors, based on the level of protection, were critically analyzed emphasizing the human risk related issues. Calculations reveal that at Level III and IV, the specified lengths of type A conductors may give step potentials, especially in highly resistive soils that may drive currents through human beings in the vicinity, exceeding lethal energy. Furthermore, specification of the limiting value of resistance for transient grounding systems may lead to hazardous situations as the difference between frequency dependent impedance and low frequency resistance may increase to very high values at Mega Hertz range where lightning energy spectrum has significant amplitude. Covering of a sizable surface area surrounding the grounding conductors with insulation material, is recommended as a practical solution to this issue.

Published

2012

42. Steady state performance of improvised Ufer grounding practice

Author

Siow, Chun Lim, Gomes, Chandima, Abd Kadir, Mohd Zainal Abidin, Azis, Norhafiz, Siow, Chun Lim, Gomes, Chandima, Abd Kadir, Mohd Zainal Abidin, and Azis, Norhafiz

Abstract

Ufer grounding is an effective method for electrical earthing, especially at highly resistive soil. The main material in ufer grounding is concrete which has moisture-dependent resistivity. In previous work, mixing concrete with Bentonite was done to observe slight improvement during short term measurements. In current study, the detailed results of extended period of measurements have been presented. It was found that the improvement of the proposed mix over the standard concrete mix has increased with time. In addition, mechanical strength of the proposed mix was found to be only 10% lower than the standard mix. Therefore this suggests that the proposed mix may be applicable as the mixture for building foundation as in the case of ufer grounding.

Published

2014

43. Bentonite-concrete mix for ufer grounding

Author

Siow, Chun Lim and Siow, Chun Lim

Abstract

Based on the literature, Bentonite is one of the most efficient grounding improvement material. There are two commercially available types of Bentonite namely Sodium and Calcium Bentonite. However, previous studies have not considered the effect of type of Bentonite on its performance as grounding improvement material. In addition, there were insufficient information of Bentonite which is imperative to explain the effectiveness of Bentonite as grounding improvement material. Based on a series of experimental and theoretical work, both types of Bentonite were characterized and it was found that Sodium Bentonite was better due to its superior moisture absorption and retention capability, swelling capacity under hydrated condition as well as its significantly lower resistivity. Furthermore, the behaviour of backfill materials especially Bentonite under the application of high voltage which could be due to lightning and power system fault events was not studied extensively in the literature. Hence further characterisation of Sodium Bentonite with respect to its high voltage response which includes transient and high alternating voltage was done. Indeed the performance of Sodium Bentonite was found to be superior compared to other selected backfill materials such as sand and cement judging on its lower 50% impulse breakdown voltage as well as alternating breakdown voltage. These information together with the results of statistical studies done on the voltage at breakdown and time to breakdown of Bentonite were not available in the literature. On the other hand, Ufer grounding is an effective grounding practice provided that moisture is present. This is because concrete is the main component of Ufer grounding and previous studies have concluded that concrete exhibits significantly higher resistivity when the moisture content is low. The good properties of Bentonite as grounding improvement material as aforementioned may be able to improve the electrical properties of conc

Published

2014

44. Effects of the presence of insulated and non-insulated floating electrodes on side flashing

Author

Nourirad, Ghasem, Gomes, Chandima, Izadi, Mahdi, Siow, Chun Lim, Ab Kadir, Mohd Zainal Abidin, Nourirad, Ghasem, Gomes, Chandima, Izadi, Mahdi, Siow, Chun Lim, and Ab Kadir, Mohd Zainal Abidin

Abstract

Metallic part would play an influential role in the case of probability of lightning strikes. An experimental study has been done to find out the effect of the presence of floating electrode on the body during thunderstorm. Although, it is clear that a small metal part on the body or in vicinity does not have effect during direct strike, the effects has been examined only in the case of side flashing. SPSS has been used to check the statistical significance of the probability. According to the result, floating electrode may shorten the gap distance of the struck point and a human body thus increasing the probability of lightning side flashing. The test has been done covered floating electrode (insulated) as well. Thus, it is recommended to either remove or isolate the metal parts during thunderstorm.

Published

2014

45. Significance of localized soil resistivity in designing a grounding system

Author

Siow, Chun Lim, Gomes, Chandima, Nourirad, Ghasem, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Gomes, Chandima, Nourirad, Ghasem, and Ab Kadir, Mohd Zainal Abidin

Abstract

The value of soil resistivity is an essential pre-requisite in designing an electrical grounding system. The current practice, as advocated even by national/international standards involves taking the average soil resistivity of the site as the parameter to be considered in designing the grounding system. This study shows that average soil resistivity may lead to significant overestimation or underestimation in the designing process as the localized soil resistivity may significantly differ from the average soil resistivity of the entire site. At least 14% difference between average and localized soil resistivity were obtained base on measurements done on five locations. Therefore, it is suggested that electrical engineers who design grounding systems should first identify the locations where the components of the grounding systems will be installed. Then, the localized soil resistivity at that particular point should be measured and the sizing and geometry of the grounding electrode should be designed accordingly.

Published

2014

46. Environmental effects on the performance of electrical grounding systems

Author

Siow, Chun Lim, Lee, Weng Choun, Gomes, Chandima, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Lee, Weng Choun, Gomes, Chandima, and Ab Kadir, Mohd Zainal Abidin

Abstract

Effects of surrounding environment of grounding electrode locations on the performance of overall grounding system has been studied. Copper rods were buried at 25 different locations with various environmental settings and their respective variations in grounding resistance were monitored for up to 4 months. It was found that there is a clear dependence of grounding resistance on the condition of surrounding environment, in addition to the average soil resistivity. Installation of grounding electrodes near running waterways, huge trees as well as slopes should be avoided wherever possible as the ground resistance of electrodes in such environments may fluctuate significantly with time.

Published

2013

47. Electrical earthing in troubled environment

Author

Siow, Chun Lim, Gomes, Chandima, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Gomes, Chandima, and Ab Kadir, Mohd Zainal Abidin

Abstract

Practical challenges of electrical earthing in both steady and transient states have been revisited. By analyzing the cases based on theoretical and practical aspects, engineering guidelines are proposed to develop suitable solutions. Less complicated cases can be approached with various electrode configurations such as multiple ring, antenna, crow-foot and centipede arrangements. Distributed earthing arrangements treated with backfill materials are suitable for the sites with extremely high resistive soil. Clay based backfill materials such as bentonite-mix give corrosion and erosion protection for the electrodes in highly acidic, alkaline, saline and sulfur-rich environments apart from reducing the low frequency resistance. On-rock sites such as transmission and communication towers are better approached with concrete-based earthing systems in both cases of power and lightning protection earthing. Extreme cases of soil instability have been identified and discussed. The suitability of vertical and horizontal electrode components as well as copper and steel electrodes under various soil conditions is also discoursed. For most cases, we recommend all types of earthing systems to be integrated, however, properly coordinated system of Surge Protective Devices (SPDs) should be incorporated in such integrated earthing system.

Published

2013

48. Characterizing of bentonite with chemical, physical and electrical perspectives for improvement of electrical grounding systems

Author

Siow, Chun Lim, Gomes, Chandima, Ab Kadir, Mohd Zainal Abidin, Siow, Chun Lim, Gomes, Chandima, and Ab Kadir, Mohd Zainal Abidin

Abstract

The application of bentonite as electrical grounding improvement material (GIM) has been investigated. Bentonite is a type of clay which has high tendency to absorb and retain water, and swells. This property makes it desirable for applications in grounding system improvement as they could result in lowering as well as minimizing the fluctuation of ground resistance over a long period of time. However, these properties depend on the type of bentonite. Commercially, there are two types of available bentonite; namely sodium bentonite and calcium bentonite. Several experiments were conducted to determine the chemical composition, water absorption rate, swelling capability; density and resistivity of calcium bentonite since such information are not available in the literature.

Published

2013

49. Ambiguity of grounding specifications: IEC 62305 revisited

Author

Siow, Chun Lim, Ab Kadir, Mohd Zainal Abidin, Gomes, Chandima, Jasni, Jasronita, Siow, Chun Lim, Ab Kadir, Mohd Zainal Abidin, Gomes, Chandima, and Jasni, Jasronita

Abstract

Grounding issues related to lightning currents have been addressed giving special attention to recommended practices in IEC 62305 (2010). Unambiguous recommendations are needed for the requirement of type A system or type B system or both systems for a given installation. Specifications of the length of conductors, based on the level of protection, were critically analyzed emphasizing the human risk related issues. Calculations reveal that at Level III and IV, the specified lengths of type A conductors may give step potentials, especially in highly resistive soils that may drive currents through human beings in the vicinity, exceeding lethal energy. Furthermore, specification of the limiting value of resistance for transient grounding systems may lead to hazardous situations as the difference between frequency dependent impedance and low frequency resistance may increase to very high values at Mega Hertz range where lightning energy spectrum has significant amplitude. Covering of a sizable surface area surrounding the grounding conductors with insulation material, is recommended as a practical solution to this issue.

Published

2012

50. Preliminary results of the performance of grounding electrodes encased in bentonite-mixed concrete.

Author

Siow Chun LIm, Gomes, Chandima, Mohd Zainal Abidin Ab Kadir, and Buba, Sani Dahiru

Abstract

Earth resistance of buried steel cages, encased in bentonite mixed concrete has been investigated. A reference pit was constructed with steel cage encasing in ordinary concrete. The land mass of the site has somewhat uniform surface soil resistivity which is in the range of 100 Ωm. The performance of earth resistance in each electrode has been measured for five months. The results show that for the first month, the lowest earth resistance and the highest decrement in earth resistance are shown by the pit with concrete having 20% bentonite. However, for the following four months, pits with bentonite mixed concrete showed increased earth resistance compared to the reference pit. These results indicate that the long-term reduction in earth resistance in electrodes encased with bentonite, as observed in previous studies, is not the case with electrodes embedded in bentonite mixed concrete. The initial reduction of earth resistance observed at pits with bentonite mixed concrete may most probably be due to the presence of hydrated bentonite which is not mixed with other constituents of concrete. Other than the pits with 20% and 70% bentonite, the outcome of this research thus far reaffirms the capability of concrete blocks to maintain earth resistance with small fluctuation. [ABSTRACT FROM PUBLISHER]

Published

2012