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The Processing Propagation of Microalgae Botryococcus Sp. Cultivation in Palm Oil Mill Effluent Materials

Abdullah L., Apandi Najeeha Mohd, Sunar Norshuhaila Mohamed, Arifin S. N. H., Haron M., Nagarajah R., Cheong K., Heng C., Soon C. F., Nabiałek Marcin

Archives of Metallurgy and Materials

2024

Vol. 69, iss. 3

981--986

Palm Oil Mill Effluent Materials (POME) are significantly more contaminated than municipal sewage due to their high chemical and biological oxygen demand (BOD and COD). This study examines the properties of POME wastewater under typical physical settings to track the growth conditions of microalgae, namely Botryococcus sp., in various volumes at varying POME dilutions. Begin with analyzing POME’s water quality measurements and conclude the growing conditions of microalgae. Botryococcus sp. microalgae could not flourish in diluted raw POME. However, it was well propagated in diluted anaerobic POME under adequate light and oxygen conditions. The finding shows that diluted anaerobic POME 70% is the ideal dilution for microalgae Botryococcus sp. to proliferate. Raw POME is physically described as a thick, brownish liquid with a high total solids and turbidity concentration that is contained in water. The study explores the use of Botryococcus sp. culture and propagation in POME materials for sustainable bioenergy production, highlighting the potential of microalgae for future economic benefits.

Optimization of Alkali Activator on the Strength Properties of Fly Ash Based Geopolymer Repair Materials

Zailani Warid Wazien Ahmad, Apandi Najeeha Mohd, Abdullah Mohd Mustafa Al Bakri, Tahir Muhammad Faheem Mohd, Sinarta I. Nengah, Agustini Komang Ayu Ni, Abdullah Sofian

Archives of Metallurgy and Materials

2024

Vol. 69, iss. 1

5--8

Flexible and rigid road pavement deteriorates over time and needs high-performance patching repair materials. Cold mix asphalt patching is an easy and inexpensive repair material to repair potholes and other damaged roads. However, the repaired road pavement fails because it doesn’t have adequate compressive and bonding strength to the substrate. Thus, this research uses high-performance geopolymer repair materials to patch against road pavement potholes substrate. Geopolymer repair materials could improve the bonding strength, making them suitable for road repair purposes. For making geopolymer repair materials, the main materials used were high calcium aluminosilicate source materials such as fly ash, sodium hydroxide, sodium silicate, and water. This study tested the compressive and bonding strength of geopolymer repair materials after 1, 7, 14, and 28 days. This study found that the compressive strength of 90 g of alkali activator was the highest, at 37.0 MPa. The bonding strength improved gradually from day 1 to day 14, and then considerably on day 28. The compressive strength and bonding strength both increase in direct proportion to the amount of alkali activator present. Alkali activator is optimal at 90 grams for compressive strength and bonding strength of geopolymer repair materials.

Effects of different microalgae Botrycoccus sp. beads concentrations on the growth and nutrients uptake in kitchen wastewater

Shaari N.A.R., Apandi Najeeha Mohd, Sunar Norshuhaila Mohamed, Nagarajah R., Cheong K., Ahia S.S.M., Halim Khairul Anwar Abdul, Gacek Marcin, Ibrahim Wan Mastura Wan

Archives of Metallurgy and Materials

2023

Vol. 68, iss. 4

1609--1615

The present study is aimed to access the growth rates, biomass productivity and nutrient removal in different concentrations of microalgae Botryococcus sp. beads using kitchen wastewater as a media. Verhulst logistic kinetic model was used to measure the optimal concentrations of microalgae Botryococcus sp. in kitchen wastewater in terms of cell growth rate kinetics and biomass productivity. The study verified that the maximum productivity was recorded with 1×106 cell/ml of the initial concentration of Botryococcus sp. with 42.64 mg/l/day and the highest removal of TP and ammonia was obtained (78.14% and 60.53% respectively). The highest specific growth rate of biomass at 0.2896 μmax/d compare to other concentrations, while the lowest occurred at concentrations of 105 cells/ml at 0.0412 μmax/d. The present study shows the different concentrations of Botryococcus sp. in alginate beads culturing in kitchen wastewater influence the cells growth of biomass and nutrient uptake with optimum concentration (106 cells/ml) of Botryococcus sp. which is suggested for wastewater treatment purposes. The result of scanning electron microscopy (sem) shows differences in morphology in terms of surface; smoother and cleaner (before the experiment), cracks and rough surface with black/white spots (after the experiment). These findings seemly can be applied efficiently in kitchen wastewater treatment as well as a production medium for microalgae biomass.