The aim of this work is to analyze the effectiveness of Bentonite, Kenaf and Pine Wood mixtures as enhancement materials for grounding system purposes. Grounding systems are designed to dissipate high-magnitude fault currents to Earth and provide safety to persons working in or living near power system installations. They are also necessary to protect equipment from being damaged caused by lightning strikes. The safety and reliable operation of various applications in an electrical system is highly depending on the effectiveness of the grounding system installed which could be achieved with a low resistance path, and this can be obtained by employing grounding enhancement materials to the surrounding soil of the installation site. Hence, this is highlighted in this work where NEM mixtures grounding systems were installed at a site near to SGS, UPM with a high resistivity soil profile. Kenaf is a natural fiber that has been shown to be effective in improving the performance of grounding systems as it has a high conductivity and a high dielectric constant. This means that it can carry electrical current well and it can also store electrical energy. Kenaf is also a relatively inexpensive material, which makes it a cost-effective option. The unique properties of Bentonite, a clay material, and Pine wood, a natural insulator, make them promising options for improving grounding systems. Six grounding systems were installed with 100% Bentonite, 100% Pine, Bentonite and Pine Mix, Bentonite and Kenaf Mix, Pine and Kenaf Mix, and Reference grounding systems. A comparison was made between them using daily measured earth resistance from 2nd March 2023 until 10th July 2023, i.e. for 130 days. It was found that mixtures of Bentonite and Pine Wood performed better than the 100% Bentonite.

Grounding systems play a crucial role in protecting an electrical power system in order to provide a safe path for fault current flow dispersion, especially in the event of lightning to avoid damage towards electrical equipment and malfunctions of such system. Therefore, an effective grounding system should possess low current resistance, allowing the fault currents to flow in the least resistance path as quick as possible. There are several methods to obtain an effective grounding system with low earth resistance value. The most common is by introducing enhancement materials, which either natural or chemical based. Note that only Natural Enhancement Materials were employed in this work which include Bentonite, Gypsum, Vermicast, Coco Peat and Peat Moss, which were chosen based on their moisture retaining capabilities. This is due to the reason that Natural Enhancement Materials will not alter the characteristics of the surrounding soil and proved to be environment friendly, as opposed to the Chemical Enhancement Materials. A total of 15 samples with various ratios including 4 Soil Reference samples, i.e. from previous Grounding Systems 2016/2017, 2017/2018, 2018/2019 and 2019/2020, were tested. Moisture Retaining Test were conducted twice a week starting from 11th March 2022 until 10th May 2022, for a duration of 60 days once Volume Density Test was performed towards the 100% individually mixtures on day-0. It was concluded that the four best performed NEM mixtures in descending order were found to be Bentonite and Gypsum Mix A (86.72%), 100% Bentonite (86.59%), Bentonite and Coco Peat Mix A (79.69%), and Bentonite and Peat Moss Mix A (79.51%). Note that Bentonite ratio was more in Mix A compared to Mix B.