Production of hydrocarbons from a green algae (Oscillatoria) with exploration of its fuel characteristics over different reaction atmospheres

Kawale, Harshal D.; Kishore, Nanda

doi:10.1016/j.energy.2019.04.103

Cited by 39 publications

(10 citation statements)

References 38 publications

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Section: Resultsmentioning

confidence: 99%

“…80 The biomass structure was composed of multifaceted compounds; however, despite their breakdown due to thermochemical conversion processes to produce biochar, the biochar samples retained their crystalline nature partially, which was visible from their XRD plots. 54,81 The surface morphology of the CLPU and CLPE biomasses along with their corresponding mixed biochar obtained at all three biomass-to-solvent ratios have been studied by FESEM (at (i) 2k×, (ii) 5k×, and (iii) 10k× resolutions), as depicted in Fig. 8.…”

Section: Analysis Of Biomassmentioning

confidence: 99%

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Citrus limetta fruit waste management by liquefaction using hydrogen-donor solvent

Acharya

Kishore

2022

RSC Adv.

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Section: Resultsmentioning

confidence: 99%

Section: Analysis Of Biomassmentioning

confidence: 99%

Citrus limetta fruit waste management by liquefaction using hydrogen-donor solvent

Acharya

Kishore

2022

RSC Adv.

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“…It derivatives are commonly used as intermediate products in the synthesis of diverse agrochemicals, pharmaceutical products, dyes and other synthetic organic compounds [73]. It is also obtained from the hydropyrolysis of Cyanobacteria green algae, of the Oscillatoria genus [74]. Benzoic acid (65-85-0) Devolatises at 109 • C, in Sargassum.…”

Section: -Acetyl-1h-pyrroline (1072-82-8)mentioning

confidence: 99%

Volatile Compounds of Algal Biomass Pyrolysis

López-Aguilar

Quiroz-Cardoza

Pérez-Hernández

2022

JMSE

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The use and transformation of biomass into highly valuable products is a key element in circular economy models. The purpose of this research was to characterise the volatile compounds and the temperature at which they are emitted during the thermal decomposition by pyrolysis of algal biomass while looking at three different types: (A1) endemic microalgae consortium, (A2) photobioreactor microalgae consortium and (A3) Caribbean macroalgae consortium. Furthermore, the ultimate (CHON) and proximate (humidity, volatile solids and ashes) compositions of the algal biomass were determined. Some volatile species were identified as having potential industrial interest for use as precursors and intermediaries, such as commercially used aromatic compounds which if not suitably managed can be harmful to our health and the environment. It is concluded that the pyrolysis of algal biomass shows potential for the generation of valuable products. The information generated is useful, especially the temperature at which volatility occurs, in order to access the valuable compounds offered by the algal biomasses, and under the concept of biorefinery convert the issue of biomass disposal into a sustainable source of raw materials.

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“…It is known that microalgae can synthesize nitrogen-related organic substances, such as proteins, using ammonia and nitrate ( Cui et al, 2020 ). Additionally, hydrocarbons and lipids (including unsaturated fatty acids) can be produced through photosynthesis, while antioxidants such as astaxanthin and lutein are included among the pigments manufactured for photosynthesis ( Kawale and Kishore, 2019 ; Cui et al, 2020 ; Li L. et al, 2020 ). These microalgae-produced substances can be fed to aquatic organisms, thereby increasing the productivity and quality of farm products ( Crab et al, 2012 ; Dauda, 2020 ; Khanjani and Sharifinia, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

The microbial communities (bacteria, algae, zooplankton, and fungi) improved biofloc technology including the nitrogen-related material cycle in Litopenaeus vannamei farms

Yun

Kim

et al. 2022

Front. Bioeng. Biotechnol.

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Microbes are essential in biofloc technology for controlling nitrogen levels in water. The composition and function of microorganisms with biofloc systems were reported; however, data on microorganisms other than bacteria, such as algae (which are essential in the nitrogen cycle) and zooplankton (which are bacterial and algal predators), remain limited. The microbial communities (including bacteria, algae, zooplankton, and fungi) were investigated in shrimp farms using biofloc technology. Using Illumina MiSeq sequencing, the V4 region of 18S rRNA and the V3–V4 region of 16S rRNA were utilized for the analysis of the eukaryotic and prokaryotic microbial communities. As a result, it was found that the biofloc in the shrimp farm consisted of 48.73%–73.04% eukaryotic organisms and 26.96%–51.27% prokaryotic organisms. In these shrimp farms, prokaryotic microbial communities had higher specie richness and diversity than eukaryotic microbial communities. However, the eukaryotic microbial communities were more abundant than their prokaryotic counterparts, while algae and zooplankton dominated them. It was discovered that the structures of the microbial communities in the shrimp farms seemed to depend on the effects of predation by zooplankton and other related organisms. The results provided the nitrogen cycle in biofloc systems by the algal and bacterial groups in microbial communities.

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Production of hydrocarbons from a green algae (Oscillatoria) with exploration of its fuel characteristics over different reaction atmospheres

Cited by 39 publications

References 38 publications

Citrus limetta fruit waste management by liquefaction using hydrogen-donor solvent

Citrus limetta fruit waste management by liquefaction using hydrogen-donor solvent

Volatile Compounds of Algal Biomass Pyrolysis

The microbial communities (bacteria, algae, zooplankton, and fungi) improved biofloc technology including the nitrogen-related material cycle in Litopenaeus vannamei farms

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