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Green algae, also referred to as chlorophytes, are different from red algae in having the chloroplasts containing chlorophylls a and b, which give them their distinct green hue. However, they lack phycobiliproteins, preventing them from developing the red or blue-green pigmentation seen in red algae. In terms of photosynthetic pigment composition, green algae closely resemble plants and share a close evolutionary relationship with them. Taxonomically Green algae belong to Phylum Chlorophyta in...
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Direct methods for measuring microbial populations in a culture are essential tools in microbiology, providing quantitative data for various applications. Among these, microscopic counts, plate counts, and serial dilution are widely used techniques, each with unique principles and applications.Microscopic CountsMicroscopic counting involves the use of a Petroff-Hausser chamber, a specialized microscope slide with a grid and defined depth. By observing a liquid culture under a microscope,...
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The group Stramenopiles include some phototrophic microorganisms. Members of this group possess flagella covered in numerous short, hairlike extensions, a feature that inspired the group's name, derived from the Latin words for "straw" and "hair." Some of the main categories of Stramenopiles include diatoms, golden algae, and brown algae.Diatoms are unicellular, photosynthetic eukaryotes, with over 200 known genera. They play a key role in the planktonic communities of both marine and...
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Related Experiment Video

Updated: Jan 7, 2026

Author Spotlight: Scaling Microalgal Biotechnology for Enhanced Biomethane Production
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Author Spotlight: Scaling Microalgal Biotechnology for Enhanced Biomethane Production

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Microalgae bulk growth model with application to industrial scale systems.

Jason Quinn1, Lenneke de Winter, Thomas Bradley

  • 1Mechanical Engineering, Colorado State University, Fort Collins, CO 80521, USA.

Bioresource Technology
|February 18, 2011
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Summary

This study models microalgae biomass and lipid accumulation in large-scale outdoor photobioreactors. The validated model aids in assessing the commercial viability of microalgae biofuels.

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Area of Science:

  • Biotechnology
  • Renewable Energy
  • Chemical Engineering

Background:

  • Commercialization of microalgae biofuels requires scalable growth systems.
  • Limited data exists on microalgae productivity in large-scale systems.
  • Accurate modeling is crucial for industrial biofuel process assessment.

Purpose of the Study:

  • To develop and validate a model for microalgae biomass and lipid accumulation.
  • To simulate growth in an outdoor, industrial-scale photobioreactor.
  • To inform lifecycle assessments of microalgae biofuels.

Main Methods:

  • Constructed and validated a time-resolved simulation model.
  • Incorporated solar irradiation, species characteristics, and photobioreactor geometry.
  • Used 9 weeks of growth data from an industrial-scale outdoor photobioreactor for validation.

Main Results:

  • The model accurately predicts microalgae biomass and lipid accumulation.
  • Validated model provides insights into industrial-scale photobioreactor productivity.
  • Sensitivity analysis of model parameters was performed.

Conclusions:

  • The validated model enhances the assessment of microalgae biofuel production.
  • Detailed growth modeling impacts lifecycle assessment studies.
  • This work supports the commercialization of microalgae-based biofuels.