Muhammad Azim A Jalil

Bio: Muhammad Azim A Jalil is an academic researcher. The author has contributed to research in topic(s): Vertical axis wind turbine & Turbine. The author has an hindex of 1, co-authored 1 publication(s) receiving 34 citation(s).

Comparison of horizontal axis wind turbine (HAWT) and vertical axis wind turbine (VAWT)

Abstract: As the demand for green technology is rising rapidly worldwide, it is important that Malaysian researchers take advantage of Malaysia’s windy climates and areas to initiate more power generation projects using wind. The main objectives of this study are to build a functional wind turbine and to compare the performance of two types of design for wind turbine under different speeds and behaviours of the wind. A three-blade horizontal axis wind turbine (HAWT) and a Darrieus-type vertical axis wind turbine (VAWT) have been designed with CATIA software and constructed using a 3D-printing method. Both wind turbines have undergone series of tests before the voltage and current output from the wind turbines are collected. The result of the test is used to compare the performance of both wind turbines that will imply which design has the best efficiency and performance for Malaysia’s tropical climate. While HAWT can generate higher voltage (up to 8.99 V at one point), it decreases back to 0 V when the wind angle changes. VAWT, however, can generate lower voltage (1.4 V) but changes in the wind angle does not affect its voltage output at all. The analysis has proven that VAWT is significantly more efficient to be built and utilized for Malaysia’s tropical and windy climates. This is also an initiative project to gauge the possibility of building wind turbines, which could be built on the extensive and windy areas surrounding Malaysian airports.

Hybrid renewable energy system: a review

Abstract: The requirement of electrical energy is increasing in domestic as well as industrial applications. To meet the necessity of energy more resources are needed and furthermore environmental health should be taken care of. Due to use of conventional sources such as petroleum and coal, environment is debasing. As electric energy is the most reliable source of energy, generation of electric energy by using natural or non-conventional resources such as wind and solar energy is necessary. For generating more and more energy these resources should be used in efficient and smart manner. For that purpose this paper proposes a review of using hybrid of solar tracker and vertical wind mill.

An analytical review on the evaluation of wind resource and wind turbine for urban application: Prospect and challenges

Abstract: Wind energy is a promising scheme in the power generation sector due to pollution-free power production and wind resources’ sufficiency worldwide. Installing wind turbines in all the possible extents can mitigate the rising energy demand. Built-up areas possess high potential for wind energy, including the rooftop of high-rise buildings, railway track, the region between or around multistoried buildings, and city roads. Harnessing wind energy from these areas is quite challenging since it has dramatic nature and turbulence for higher roughness on urban surfaces. This review paper endeavors to highlight the present status of urban wind farm technology and its commercial and environmental aspects. Observations and upcoming research trends have been presented based on up-to-the-minute information. It is concluded that further investigation of wind mapping and the suitable design of turbines is essential to make the urban wind farm a reliable and feasible option for decentralized power generation.

Comprehensive Review of Wind Energy in Malaysia: Past, Present, and Future Research Trends

Abstract: In recent years, wind energy has gained extensive attention in the recent years in various countries due to the high energy demand of energy and shortage of traditional electric energy sources. Because wind energy constitutes a cost effective and environmentally friendly source, it can significantly contribute toward the reduction of the ever-increasing carbon emissions. It is one of the fastest growing green technologies worldwide, with a total generation share of 564 GW as of the end of 2018. In Malaysia, wind energy has been a hot topic in both academia and green energy industry. In this paper, the current status of wind energy research in Malaysia is reviewed. Different contributing factors such as potentiality and assessments, wind speed and direction modeling, wind prediction and spatial mapping, and optimal sizing of wind farms are extensively discussed. This paper discusses the progress of all studies related to wind energy and presents conclusions and recommendations for improving wind energy research in Malaysia.

Designing a solar and wind hybrid system for small-scale irrigation: a case study for Kalangala district in Uganda

Abstract: Dynamics in rainfall patterns are posing a threat to crop production in Uganda. Irrigation can be used to ensure constant production; however, the motorized powered irrigation methods are quite costly to run in addition to being environmentally unsustainable. There is thus need for alternative irrigation methods. Renewable energy sources which are readily available can be used to power irrigation systems. This study hence sought to design an appropriate wind-solar hybrid system for irrigating 1 acre of banana plantation in Kalangala district, Uganda. Using metrological data, mean wind speed and monthly solar irradiance of global radiation horizontal for the district were analysed. A wind-solar hybrid system was optimally designed for a standalone drip irrigation system of 450 banana plants on 1-acre land with water requirement of 33.73 m3 d−1. The wind turbine was simulated to analyse for static pressure, cut plane flow behaviour, turbulence intensity and stress distribution exposed at 20 m s−1 wind speed. A cost analysis was done to estimate the total project investment, maintenance and operational cost, annual project gross income, net income stream and the annual net real rate of returns. The simulation results showed that the system could effectively operate at speeds of 20 m s−1 without deformation. The net present value of income stream for the first 5 years at r = 5% was 12,935,468 UGX with a net real rate of return of 3.5% per year. The study will, therefore, be a useful guideline in making investment decisions in hybrids irrigation systems.

Power Generation Potential of Small Wind Turbine in Elazig Province, Turkey

Abstract: As an alternative to fossil fuels, wind energy is a clean, environmentally friendly and renewable energy source. In the design of wind energy conversion systems, the wind speed of the region is one of the most important parameters and the economic applicability of wind power generation depends on the wind speed. In this study, the feasibility of small scale wind turbine is investigated for Elazig province in the east of Turkey. For this purpose, the average wind speeds on a monthly basis of Elazig province for ten years were taken into consideration. Wind speed measurements were done both for December, which the average wind speed was the lowest in 2018 and for March, which the average wind speed was the highest in 2018 and the results were evaluated. The power energy potential that can be generated of the three-bladed small type wind turbine designed according to these data has been determined. In addition, in order to observe the effect of turbine installation height on wind speed, wind speeds were calculated at different installation heights and the effect of these values on the power generation potential of the designed small type wind turbine was determined. As a result, it was observed that small type wind turbines can be used for generate electricity in low speed regions. In case of wind turbine installed at a height of 50 m, it is observed that it is possible to generate significant amounts of electrical energy with small wind turbines in Elazig and these turbines can be a technically applicable option for power generation.