1.Progress and prospect of biodiesel industry in China.
Yang LI ; Jing ZENG ; Wei DU ; Dehua LIU
Chinese Journal of Biotechnology 2015;31(6):820-828
2.Net energy analysis for annual 200 000 ton cassava ethanol production at Guangxi COFCO.
Guojun YUE ; Zhenjiang SUN ; Naidong SHEN
Chinese Journal of Biotechnology 2015;31(2):242-250
Guangxi COFCO innovates its annual 200 000 ton cassava ethanol production in recent years. To evaluate the energy input/output of the production process, we used the domestic life cycle model. The calculation results show that the net energy value was 9.56 MJ/L ethanol. Energy input for ethanol production was 51.3% of the total. 61.5% of energy input for ethanol production was used for steam input in ethanol distillation. Energy produced from by-product was 5.03 MJ/L ethanol. Hence, efficient use of raw materials is an important measure to improve the energy efficiency in Guangxi COFCO and energy compensation from byproducts has key impact on the net energy saving.
Biofuels
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China
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Ethanol
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Manihot
3.Reflection on developing bio-energy industry of large oil company.
Haiyang SUN ; Haijia SU ; Tianwei TAN ; Shumin LIU ; Hui WANG
Chinese Journal of Biotechnology 2013;29(3):299-311
China's energy supply becomes more serious nowadays and the development of bio-energy becomes a major trend. Large oil companies have superb technology, rich experience and outstanding talent, as well as better sales channels for energy products, which can make full use of their own advantages to achieve the efficient complementary of exist energy and bio-energy. Therefore, large oil companies have the advantages of developing bio-energy. Bio-energy development in China is in the initial stage. There exist some problems such as available land, raw material supply, conversion technologies and policy guarantee, which restrict bio-energy from industrialized development. According to the above key issues, this article proposes suggestions and methods, such as planting energy plant in the marginal barren land to guarantee the supply of bio-energy raw materials, cultivation of professional personnel, building market for bio-energy counting on large oil companies' rich experience and market resources about oil industry, etc, aimed to speed up the industrialized process of bio-energy development in China.
Biofuels
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China
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Gasoline
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Industry
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Petroleum
4.Microbial lipids production from wastes by Metschnikowia pulcherrima: a review.
Qian LI ; Danyang WANG ; Anjie LI ; Jidong GU
Chinese Journal of Biotechnology 2021;37(8):2753-2764
Biodiesel is an alternative fuel to addressing the energy shortage problem. Microbial lipids have attracted widespread attention as one of the potential feed-stocks for cost-effective and efficient biodiesel production. However, the large-scale production of microbial lipids is hampered by the complexity and the high cost of aseptic culturing approach. Metschnikowia pulcherrima is an oleaginous yeast with strong environmental adaptability. It is capable of utilizing a wide spectrum of substrates, and can be cultured under non-sterile conditions. Therefore, this yeast has great potential to replace the traditional oleaginous microorganisms, particularly in the area of recycling wastewater and solid waste for the production of biodiesel. Based on the analysis of lipid production and application conditions of M. pulcherrima, this review summarized the unique advantages of M. pulcherrima and the key factors affecting lipids production. We further discussed the feasibility of cultivating M. pulcherrima on various organic wastes under non-sterile conditions for lipids production. Moreover, we analyzed the challenges associated with M. pulcherrima's in the yield and mechanism for lipids production, and proposed perspectives for how to achieve efficient biodiesel production using this yeast.
Biofuels
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Candida
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Lipids
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Metschnikowia
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Yeasts
5.Biofuel production potential of indigenous isolates of Scenedesmus sp. from lake water in Pakistan
Muhammad Imran Najeeb ; Mansur-ud-Din Ahmad ; Aftab Ahmad Anjum ; Azhar Maqbool ; Muhammad Asad Ali ; Muhammad Nawaz ; Tehreem Ali ; Rabia Manzoor
Malaysian Journal of Microbiology 2022;18(4):380-388
Aims:
This paper presents the report on biodiesel and biogas production at a laboratory scale from Scenedesmus strain.
Methodology and results:
Previously isolated and identified Scenedesmus were grown in 10 Liter flask using BG-11 media at 16 h light and 8 h dark cycle. Oven-dried biomass (20 g) from 16-day-old culture of Scenedesmus was finely grounded and subjected to lipids extraction by chloroform-methanol-NaCl mixture. Microalgal lipids (6 mL) were subjected to transesterification by using NaOH leading to the production of 5 mL biodiesel and 4 mL of glycerin. Biodiesel was rich in methyl esters of linoleic acid, phosphorothioc acid and dodecanoic acid, as shown by gas chromatography-mass spectrometry (GC-MS) analysis. Oven-dried microalgae (2 g) without lipid extraction and leftover biomass (2 g) after lipid extraction were subject to biogas production through anaerobic digestion. Biogas (34, 27 and 19 mL) were recorded respectively in oven-dried whole biomass; lipid extracted biomass and control over a period of 15 days of anaerobic digestion.
Conclusion, significance and impact of study
It was concluded that water bodies are rich in diverse algae, especially Scenedesmus sp., and this algae can be cultured to produce biodiesel and biogas. But the lipid accumulation potential of microalgae requires special treatment and lipid extraction methods are not up to the mark, which is a major bottleneck in biofuel production from microalgae.
Biofuels
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Scenedesmus--isolation &
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purification
6.Progress in synthesis technologies and application of aviation biofuels.
Xiaoying SUN ; Xiang LIU ; Xuebing ZHAO ; Ming YANG ; Dehua LIU
Chinese Journal of Biotechnology 2013;29(3):285-298
Development of aviation biofuels has attracted great attention worldwide because that the shortage of fossil resources has become more and more serious. In the present paper, the development background, synthesis technologies, current application status and existing problems of aviation biofuels were reviewed. Several preparation routes of aviation biofuels were described, including Fischer-Tropsch process, catalytic hydrogenation and catalytic cracking of bio-oil. The status of flight tests and commercial operation were also introduced. Finally the problems for development and application of aviation biofuels were stated, and some accommodation were proposed.
Aviation
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methods
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Biofuels
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Chemistry Techniques, Synthetic
;
methods
7.Harvesting microalgae via flocculation: a review.
Chun WAN ; Xiaoyue ZHANG ; Xinqing ZHAO ; Fengwu BAI
Chinese Journal of Biotechnology 2015;31(2):161-171
Microalgae have been identified as promising candidates for biorefinery of value-added molecules. The valuable products from microalgae include polyunsaturated fatty acids and pigments, clean and sustainable energy (e.g. biodiesel). Nevertheless, high cost for microalgae biomass harvesting has restricted the industrial application of microalgae. Flocculation, compared with other microalgae harvesting methods, has distinguished itself as a promising method with low cost and easy operation. Here, we reviewed the methods of microalgae harvesting using flocculation, including chemical flocculation, physical flocculation and biological flocculation, and the progress and prospect in bio-flocculation are especially focused. Harvesting microalgae via bio-flocculation, especially using bio-flocculant and microalgal strains that is self-flocculated, is one of the eco-friendly, cost-effective and efficient microalgae harvesting methods.
Biofuels
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Biomass
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Flocculation
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Microalgae
;
growth & development
8.Advances in the co-culture of microalgae with other microorganisms and applications.
Chang LI ; Wenxiang PING ; Jingping GE ; Yimeng LIN
Chinese Journal of Biotechnology 2022;38(2):518-530
Intense utilization and mining of fossil fuels for energy production have resulted in environmental pollution and climate change. Compared to fossil fuels, microalgae is considered as a promising candidate for biodiesel production due to its fast growth rate, high lipid content and no occupying arable land. However, monocultural microalgae bear high cost of harvesting, and are prone to contamination, making them incompetent compared with traditional renewable energy sources. Co-culture system induces self-flocculation, which may reduce the cost of microalgae harvesting and the possibility of contamination. In addition, the productivity of lipid and high-value by-products are higher in co-culture system. Therefore, co-culture system represents an economic, energy saving, and efficient technology. This review aims to highlight the advances in the co-culture system, including the mechanisms of interactions between microalgae and other microorganisms, the factors affecting the lipid production of co-culture, and the potential applications of co-culture system. Finally, the prospects and challenges to algal co-culture systems were also discussed.
Biofuels
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Biomass
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Coculture Techniques
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Flocculation
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Microalgae
9.Lipid production by oleaginous microorganisms using food wastes: a review.
Yong ZHANG ; Yangbin HE ; Wen YANG ; Faqi TAN ; Weiwei LI ; Qiuzhen WANG
Chinese Journal of Biotechnology 2022;38(2):565-577
Food wastes are rich in nutrients and can be used for producing useful chemicals through biotransformation. Some oleaginous microorganisms can use food wastes to produce lipids and high value-added metabolites such as polyunsaturated fatty acids, squalene, and carotenoids. This not only reduces the production cost, but also improves the economic value of the products, thus has large potential for commercial production. This review summarized the advances in food waste treatment, with a focus on the lipid production by oleaginous microorganisms using food wastes. Moreover, challenges and future directions were prospected with the aim to provide a useful reference for related researchers.
Biofuels
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Biotransformation
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Food
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Lipids
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Refuse Disposal
10.Effects of substrate on growth and lipid accumulation of Tribonema sp. FACHB-1786.
Ting ZHANG ; Qing HE ; Zijun XU ; Feiya SUO ; Chengwu ZHANG ; Qiang HU
Chinese Journal of Biotechnology 2020;36(11):2478-2493
Filamentous microalga Tribonema sp. has the advantages of highly resistance to zooplankton-predation, easy harvesting, and high cellular lipid content, in particular large amounts of palmitoleic acid (PA) and eicosapentaenoic acid (EPA). Therefore, Tribonema sp. is considered as a promising biomass feedstock to produce biodiesel and high-value products. In this work, we studied the effect of different concentrations of nitrogen (NaNO₃: 255-3 060 mg/L), phosphorus (K₂HPO₄: 4-240 mg/L), iron ((NH₄)₃FeC₁₂H₁₀O₁₄: 0.6-12 mg/L) and magnesium (MgSO₄: 7.5-450 mg/L) on the biomass, lipid content, and fatty acid composition of Tribonema sp. FACHB-1786, aiming at enhancing cell lipid productivity. The growth of Tribonema sp. had a positive correlation with the concentration of magnesium, and the maximum biomass of Tribonema sp. (under the condition of 450 mg/L MgSO₄) was 8.09 g/L, much greater than those reported in previous studies using the same and other Tribonema species under autotrophic conditions. Different nitrogen concentrations exerted no significant effect on algal growth (P > 0.05), but a higher nitrogen concentration resulted in a greater amount of lipid in the cells. The maximum volumetric productivities of total lipids (319. 6 mg/(L·d)), palmitoleic acid (135.7 mg/(L·d)), and eicosapentaenoic acid (24.2 mg/(L·d)) of Tribonema sp. were obtained when the concentrations of NaNO₃, K₂HPO₄, (NH₄)₃FeC₁₂H₁₀O₁₄, and MgSO₄ were 765 mg/L, 80 mg/L, 6 mg/L, and 75 mg/L, respectively. This study will provide a reference for substrate optimization for Tribonema sp. growth and lipid production.
Biofuels
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Biomass
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Lipids
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Microalgae
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Nitrogen
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Stramenopiles