Your search keyword '"Zayadan, Bolatkhan K."' showing total 4 results

1. Waste-free technology of wastewater treatment to obtain microalgal biomass for biodiesel production.

Author

Zayadan, Bolatkhan K., Sadvakasova, Asemgul K., Usserbayeva, Aizhan A., Bolatkhan, Kenzhegul, Baizhigitova, Aizhan M., Akmukhanova, Nurziya R., Sidorov, Roman A., Sinetova, Maria A., and Los, Dmitry A.

Subjects

*WASTEWATER treatment, *BIODIESEL fuel manufacturing, *MICROALGAE, *PHORMIDIUM, *SEWAGE purification

Abstract

Five axenic cultures of microalgae were isolated from the wastewater of Almaty city and identified as Chlorella vulgaris strain № 1, Chlorella sp. strain № 3, Scenedesmus obliquus , Phormidium foveolarum and Lyngbya limnetica . Among these strains, C. vulgaris strain № 1 was characterized by the maximum growth rate and the highest productivity. Mass cultivation of this strain in wastewater resulted in accumulation of 5 × 10 7 cells per ml in 16 days, and in the removal of ∼95% of pollutants from water. Cells of C. vulgaris consisted of ∼35% proteins, 29% carbohydrates, 30% lipids, and 6% ash, as calculated on a dry weight basis. The major fatty-acids of C. vulgaris were represented by palmitic, cis -7,10-hexadecenoic acid, linoleic, and α-linolenic acids. Culturing in wastewater decreased the unsaturation index of FAs. Thus, C. vulgaris cells are suitable for both waste water purification and accumulation of biomass for further biodiesel production. [ABSTRACT FROM AUTHOR]

Published

2017

2. Potential of cyanobacteria in the conversion of wastewater to biofuels.

Author

Sadvakasova, Asemgul K., Kossalbayev, Bekzhan D., Zayadan, Bolatkhan K., Kirbayeva, Dariga K., Alwasel, Saleh, and Allakhverdiev, Suleyman I.

Subjects

*BIOMASS energy, *RENEWABLE energy sources, *GLOBAL Financial Crisis, 2008-2009, *CYANOBACTERIA, *SEWAGE, *ENERGY shortages

Abstract

Environmental and energy security has now become a serious global problem, requiring a lot of research to find and implement its cost-effective and environmentally friendly alternatives. The development and use of renewable energy sources is necessary and important in order to avoid the emergence of a global economic crisis. One of the solution to prevent a future crisis caused by energy shortages is to introduce biofuels into the fuel market. Despite the fact that various forms of renewable energy are currently used, the prospects for the production of biofuels from cyanobacteria are quite high due to their unique properties, such as a high lipid content and a suitable fatty acid (FA) composition for the production of biofuels, their suitability for growing open water and the ability to grow on wastewater. The purpose of this article is to provide a comprehensive overview of the potential of cyanobacteria in the conversion of wastewater into biofuels. The article covers comparative data on the accumulation of lipids and the content of fatty acids in various representatives of cyanobacteria and their possibilities in the remediation of wastewater. Various approaches to the extraction of lipids from phototrophic microorganisms that are currently available, their advantages and disadvantages, and the results of the monitoring of the main key points of the development of the technology for converting cyanobacterial biomass into biofuels, with an emphasis on the existing barriers, effects and solutions, are also considered. Further research in this field is required for the successful implementation of this technology on an industrial scale. [ABSTRACT FROM AUTHOR]

Published

2021

3. Prospects for the creation of a waste-free technology for wastewater treatment and utilization of carbon dioxide based on cyanobacteria for biodiesel production.

Author

Bolatkhan, Kenzhegul, Sadvakasova, Assem K., Zayadan, Bolatkhan K., Kakimova, Ardak B., Sarsekeyeva, Fariza K., Kossalbayev, Bekzhan D., Bozieva, Ayshat M., Alwasel, Saleh, and Allakhverdiev, Suleyman I.

Subjects

*WASTEWATER treatment, *CARBON dioxide, *MONOUNSATURATED fatty acids, *CYANOBACTERIA, *WASTE recycling, *BIODIESEL fuels

Abstract

• The optimal concentration of CO 2 for cultivation of cyanobacterial strains was determined. • The optimal concentration of wastewater for cultivation of cyanobacteria was determined. • The fatty acid composition of lipids was studied. • The yield of dry biomass and methyl esters of Cyanobacterium sp. IPPAS B-1200 strain was determined. Current fresh water and energy shortage determines the need to study the possibilities of using living objects in bioenergy and environmental purification technologies. The development of waste-free technologies allows waste recycling, which saves raw materials and energy, in turn, reducing waste generation. The effect of different carbon dioxide concentrations and wastewater from households on the growth of cyanobacteria was studied in order to determine their capabilities in the purification processes. It was found that the optimal CO 2 concentration for the cultivation of cyanobacteria Cyanobacterium sp. IPPAS B-1200 and Desertifilum sp. IPPAS B-1220 was 10 %, and for the Cyanobacterium aponinum IPPAS B-1201 – 5%. It was revealed that the cultivation of the cyanobacterium Cyanobacterium sp. IPPASB-1200 on wastewater from the water storage reduces the concentration of organic pollutants and, accordingly, improves the physicochemical properties of water. The cleaning percentage for selected pollutants was 68–100 %. It was shown that the most optimal ratio of wastewater to nutrient media for cyanobacteria cultivation were 25:75 and 50:50. The lipid content (%/dry weight) in the biomass of the studied strains of cyanobacteria ranges from 15 to 22% after cultivation in wastewater. It was determined that the strains of Cyanobacterium genus were the most suitable for the production of biodiesel according to their fatty acids composition. It was determined that lipids were composed of only saturated and monounsaturated fatty acids. As a result of the studies, the optimal conditions for the growth of Cyanobacterium sp. IPPAS B-1200 were determined. This microorganism has a good potential to produce biodiesel as a producer of saturated and monounsaturated middle-chain-length fatty acids. [ABSTRACT FROM AUTHOR]

Published

2020

4. Synthetic algocyanobacterial consortium as an alternative to chemical fertilizers.

Author

Sadvakasova, Assemgul K., Bauenova, Meruyert O., Kossalbayev, Bekzhan D., Zayadan, Bolatkhan K., Huang, Zhiyong, Wang, Jingjing, Balouch, Huma, Alharby, Hesham F., Chang, Jo-Shu, and Allakhverdiev, Suleyman I.

Subjects

*FERTILIZERS, *BIOLOGICAL products, *ORGANIC fertilizers, *FARM produce, *FLUE gases

Abstract

The use of unregulated pesticides and chemical fertilizers can have detrimental effects on biodiversity and human health. This problem is exacerbated by the growing demand for agricultural products. To address these global challenges and promote food and biological security, a new form of agriculture is needed that aligns with the principles of sustainable development and the circular economy. This entails developing the biotechnology market and maximizing the use of renewable and eco-friendly resources, including organic fertilizers and biofertilizers. Phototrophic microorganisms capable of oxygenic photosynthesis and assimilation of molecular nitrogen play a crucial role in soil microbiota, interacting with diverse microflora. This suggests the potential for creating artificial consortia based on them. Microbial consortia offer advantages over individual organisms as they can perform complex functions and adapt to variable conditions, making them a frontier in synthetic biology. Multifunctional consortia overcome the limitations of monocultures and produce biological products with a wide range of enzymatic activities. Biofertilizers based on such consortia present a viable alternative to chemical fertilizers, addressing the issues associated with their usage. The described capabilities of phototrophic and heterotrophic microbial consortia enable effective and environmentally safe restoration and preservation of soil properties, fertility of disturbed lands, and promotion of plant growth. Hence, the utilization of algo-cyano-bacterial consortia biomass can serve as a sustainable and practical substitute for chemical fertilizers, pesticides, and growth promoters. Furthermore, employing these bio-based organisms is a significant stride towards enhancing agricultural productivity, which is an essential requirement to meet the escalating food demands of the growing global population. Utilizing domestic and livestock wastewater, as well as CO 2 flue gases, for cultivating this consortium not only helps reduce agricultural waste but also enables the creation of a novel bioproduct within a closed production cycle. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023