☆ 4.8 Review

Recent progress on converting CO2 into microalgal biomass using suspended photobioreactors

BIORESOURCE TECHNOLOGY (2022)

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Review Agricultural Engineering

Recent progress in flocculation, dewatering, and drying technologies for microalgae utilization: Scalable and low-cost harvesting process development

Ki Ha Min et al.

Summary: Research on microalgae has advanced in the high-value industrial application of microalgal biomass and its derivatives, but cost-effective techniques for producing, harvesting, and processing microalgal biomass on a large scale still need to be fully explored. Selecting the appropriate harvesting technique must consider the characteristics of the target microalgae and the type of final value-added products. Developing scalable and low-cost microalgal harvesting systems is crucial for future directions in flocculation, dewatering, and drying steps.

BIORESOURCE TECHNOLOGY (2022)

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Review Agricultural Engineering

Design and applications of photobioreactors- a review

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Summary: There has been increasing attention on the use of photobioreactors for microalgae cultivation. Understanding the state-of-the-art designs, advantages, and limitations is crucial for classifying and applying different photobioreactors effectively.

BIORESOURCE TECHNOLOGY (2022)

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Article Agricultural Engineering

Mass cultivation and harvesting of microalgal biomass: Current trends and future perspectives

Aswathy Udayan et al.

Summary: Microalgae are unicellular photosynthetic organisms that can produce high-value metabolites, making them potential candidates for nutraceutical and industrial products. Research on cost-effective cultivation systems and harvesting methods is crucial for increasing biomass yield and reducing downstream processing costs to fully utilize the potential of microalgae in industry.

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Review Engineering, Environmental

Biologically-mediated carbon capture and utilization by microalgae towards sustainable CO2 biofixation and biomass valorization-A review

Ehsan Daneshvar et al.

Summary: The article highlights the importance of collaborative action to address the rising emissions of carbon dioxide, emphasizing the potential and prospects of carbon capture and utilization technologies. In particular, bio-CCU through microalgae for biologically fixing CO2 and producing high-value products is considered a promising approach to reduce emissions.

CHEMICAL ENGINEERING JOURNAL (2022)

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Review Green & Sustainable Science & Technology

Application of microwave plasma technology to convert carbon dioxide (CO2) into high value products: A review

M. Y. Ong et al.

Summary: This paper provides an overview of microwave plasma technology for CO2 conversion, discussing the basic theory and parameters that affect the performance of the conversion process. The prospects and challenges for the commercialization of CO2 utilization using microwave plasma technology are also emphasized.

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Article Green & Sustainable Science & Technology

Continuous cultivation of microalgae in photobioreactors as a source of renewable energy: Current status and future challenges

Angela Paul Peter et al.

Summary: Microalgae are promising sustainable energy sources for biodiesel production due to their rapid photosynthesis growth rate and ability to be cultivated in various water sources. The utilization of photosynthesis reactions by microalgae allows for the conversion of light energy into renewable energy, while closed photobioreactors provide resistance to contamination and enable monitoring of environmental factors.

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Article Agricultural Engineering

Revealing the synergistic effects of cells, pigments, and light spectra on light transfer during microalgae growth: A comprehensive light attenuation model

Shiyan Ma et al.

Summary: A modified Cornet model is established to describe light transmission in microalgal suspensions by comprehensively considering cell concentrations, pigment components, and light spectra. The attenuation of blue light is the most severe, with total carotenoids contributing the most to its absorption. Chlorophyll a contributes the most to the absorption of red light.

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Article Engineering, Environmental

Single-step integrated technology for enhanced CO2 biofixation and efficient lipid extraction in microalgal system including a water-immiscible solvent

Liju Bai et al.

Summary: This paper proposes a novel integrated technology using N-heptane to enhance CO2 biofixation and efficient lipid extraction in a microalgal system. The results showed that the addition of N-heptane increased the biomass concentration, specific growth rate, and CO2 biofixation rate while maintaining the potential for biofuel production.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Biotechnology & Applied Microbiology

A novel magnet-driven rotary mixing aerator for carbon dioxide fixation and microalgae cultivation: Focusing on bubble behavior and cultivation performance

Nan Li et al.

Summary: A novel magnet-driven rotary mixing aerator (MDRMA) was proposed to improve CO2 mass transfer and reduce bubble size and rising rate during microalgae growth. Results showed that the MDRMA increased bubble number density, reduced bubble diameter and rising rate, and generated microbubbles below 0.5 mm. When used with synthetic flue gas, MDRMA achieved higher biomass concentration and pigment content compared to the control.

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Article Multidisciplinary Sciences

Alternative photosynthesis pathways drive the algal CO2-concentrating mechanism

Adrien Burlacot et al.

Summary: Global photosynthesis consumes ten times more CO2 than net anthropogenic emissions, and microalgae account for nearly half of this consumption. In the green alga Chlamydomonas reinhardtii, cyclic electron flow and O-2 photoreduction generate a low luminal pH essential for CO2 concentration, while electron flow from chloroplast to mitochondria energizes inorganic carbon transport.

NATURE (2022)

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Article Green & Sustainable Science & Technology

Impacts of the harvesting process on microalgae fatty acid profiles and lipid yields: Implications for biodiesel production

Zahra Shokravi et al.

Summary: This paper provides a compilation of technical developments aimed at promoting fatty acid profile (FAP) and lipid yield (LY) during the harvesting process of microalgae. Co-cultivating specific microalgae with fungi, bacteria, or other microalgae strains was found to improve flocculation efficiency and FAP&LY. Proper wet storage conditions and stress induction strategies could enhance FAP&LY efficiency and reduce expenses associated with cell drying and related equipment. Enhancing FAP&LY through the harvesting process could be a breakthrough technology for cost-efficient microalgaebased biodiesel production.

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M. Carneiro et al.

Summary: The study found that using LED lighting can significantly increase the biomass and nighttime productivity of microalgae under low light conditions, especially when the sunlight is weak. However, the use of LED lighting in outdoor raceway ponds should only be considered for high-value metabolites.

ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS (2022)

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Hydrodynamics and mass transfer of concentric-tube internal loop airlift reactors: A review

Lifeng Li et al.

Summary: This study provides a thorough description of the hydrodynamics and mass transfer of the concentric-tube internal loop airlift reactors, with a focus on microalgae cultivation. The study covers reactor characteristics, geometry, CFD modeling, experimental characterization, and scale up considerations. Research gaps for future development are also identified.

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Review Agricultural Engineering

Life cycle assessment of microalgal biorefinery: A state-of-the-art review

Aristotle T. Ubando et al.

Summary: Microalgal biorefineries offer an opportunity for economically and environmentally sound production of bioproducts, but face technological bottlenecks due to energy-intensive processes. Life cycle assessment studies have provided strategic technologies and metrics for sustainable production of microalgal biofuels.

BIORESOURCE TECHNOLOGY (2022)

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Review Thermodynamics

Biodiesel from microalgae: Recent progress and key challenges

Jee Young Kim et al.

Summary: Microalgal biodiesel, with its high lipid content and CO2 fixation capability, is considered a promising carbon-neutral fuel. However, the commercialization of microalgal biodiesel has been hindered by expensive and energy-intensive cultivation, pretreatment, and conversion processes. This study comprehensively reviews the current technical developments and suggests future studies to resolve these issues.

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Ke Wang et al.

Summary: Aquatic pollution caused by antibiotics poses a significant threat to human health and the ecosystem. In this study, a hierarchical cheese-like porous Spirulina residue biochar activated by KHCO3 was fabricated to efficiently remove sulfathiazole (STZ). The activated biochar exhibited significantly enhanced surface properties, including larger specific surface areas and higher adsorption capacity for STZ compared to the original biochar. The adsorption behavior of the activated biochar followed the pseudo-second-order and Langmuir models, and the adsorption process was spontaneous and exothermic. The main mechanisms for STZ adsorption were considered to be pore filling and electrostatic interaction, with contributions from pi-pi electron donor-acceptor interaction and hydrogen bond.

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An integrated algal membrane photobioreactor as a green-transition technology for the carbon capture and utilization

Vincenzo Senatore et al.

Summary: This study evaluated the performance of the recently developed Encapsulated Self-Forming Dynamic Membrane (ESFDM) module in a cylindrical photobioreactor for efficient microalgae biomass cultivation and harvesting. Different permeate fluxes were investigated, and excellent harvesting rates were achieved. The implementation of nitrogen starvation strategy and the use of SFDM technology were found to significantly increase the biomass harvesting rate while maintaining photosynthetic activity.

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Strengthening CO2 dissolution with zeolitic imidazolate framework-8 nanoparticles to improve microalgal growth in a horizontal tubular photobioreactor

Junchen Xu et al.

Summary: An optimized medium containing ZIF-8 nanoparticles was developed to enhance CO2 dissolution in a closed tubular photobioreactor, leading to increased microalgal biomass yield. Within a certain concentration range, ZIF-8 nanoparticles can effectively promote microalgae growth, but excess use may cause potential toxic reactions.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Agricultural Engineering

Strengthening mass transfer with the Tesla-valve baffles to increase the biomass yield of Arthrospira platensis in a column photobioreactor

Ameer Ali Kubar et al.

Summary: The use of Tesla-valve baffles in a column photobioreactor optimizes the flow field to enhance CO2 mass transfer, leading to increased biomass yield and improved helix pitch and trichome length.

BIORESOURCE TECHNOLOGY (2021)

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Article Engineering, Chemical

Synergistic effect of microbubble flow and light fields on a bionic tree- like photobioreactor

Luhaibo Zhao et al.

Summary: A bionic fractal tree-like photobioreactor with multiscale bubbles was studied to enhance gas-liquid mass transfer and microalgal photosynthesis. Numerical simulations and experiments focused on characteristics of microbubbles and large bubbles in the reactor, finding that the good flow characteristic of microbubbles tended to generate a homogeneous dispersed flow pattern. Combining the tree-like PBR with microbubbles enhanced photosynthetic capacity and microalgal activity, providing a novel technical solution for improving multiphase photoreaction.

CHEMICAL ENGINEERING SCIENCE (2021)

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Review Agricultural Engineering

Converting nitrogen and phosphorus wastewater into bioenergy using microalgae-bacteria consortia: A critical review

Chaofan Zhang et al.

Summary: The new wastewater treatment process using microalgae-bacteria consortia shows excellent performance in nutrients removal and potential for bioenergy production.

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Article Agricultural Engineering

Boosting photo-biochemical conversion and carbon dioxide bio-fixation of Chlorella vulgaris in an optimized photobioreactor with airfoil-shaped deflectors

Jingwei Fu et al.

Summary: The novel PBR ASD-PBR proposed in this study effectively improved microalgal biomass manipulation and photo-biochemical conversion by addressing the poor hydrodynamic regimes and uneven light distribution. The ASD module not only increased solution velocity and mass transfer coefficient, but also contributed to an enhancement in algal biomass yield and CO2 fixation rate.

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Article Environmental Sciences

Innovative membrane photobioreactor for sustainable CO2 capture and utilization

Vincenzo Senatore et al.

Summary: This study presents an innovative membrane photo-bioreactor technology for enhancing CO2 capture and algal biomass production efficiency. Results showed that increasing photon flux density and liquid/gas ratio can enhance biomass yield and CO2 removal efficiency.

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Review Energy & Fuels

Insights about sustainable biodiesel production from microalgae biomass: A review

Michael S. Rahul et al.

Summary: Production of biodiesel from microalgae is a symbiotic engineering solution focusing on energy and environmental problems. Various cultivation and harvesting techniques are utilized to yield a large quantity of biomass to compete with high market demand for fossil fuels and address pollution issues. Overcoming bottlenecks in different steps of algal growth, such as high biomass cultivation, investment factors, and implementation of biorefinery approaches, is proposed to scale up biodiesel production from microalgae.

INTERNATIONAL JOURNAL OF ENERGY RESEARCH (2021)

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Novel Flat-Plate Photobioreactor with Inclined Baffles and Internal Structure Optimization to Improve Light Regime Performance

Linlin Wang et al.

Summary: A novel flat-plate photobioreactor with inclined baffles was developed for high-density algae cultivation. Computational fluid dynamics model optimization showed that inclined baffles with a small angle could improve swirl flow and light regime performance, with the ratio of the baffle opening distance to the reactor width being a key parameter for light regime performance. Experiments demonstrated a significant increase in algal biomass with the optimal baffle parameters compared to reactors without baffles or with horizontal baffles.

ACS SUSTAINABLE CHEMISTRY & ENGINEERING (2021)

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Article Environmental Sciences

Developing staggered woven mesh aerator with three variable-micropore layers in recycling water pipeline to enhance CO2 conversion for improving Arthrospira growth

Jun Cheng et al.

Summary: A staggered woven mesh (SWM) aerator with variable-micropore layers was developed to enhance CO2 conversion into HCO3-. Compared to the traditional steel pipe (TSP) aerator, the SWM aerator showed reductions in bubble generation diameter and time, as well as increased carbonization efficiency and biomass conversion efficiency. Additionally, chlorophyll fluorescence and biomass measurements indicated significant improvements in actual photochemical efficiency and biomass yield.

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Investigation of growth limitation by CO2 mass transfer and inorganic carbon source for the microalga Chlorella vulgaris in a dedicated photobioreactor

B. Le Gouic et al.

Summary: This study validated the accuracy of a well-controlled photobioreactor experiment setup and investigated the transfer and assimilation of CO2 in water by photosynthetic microorganisms. The gas-liquid mass transfer coefficient (k(L)a) was modeled to understand the dissolution of CO2 in water, affected by the composition of the culture medium and its pH value. Additionally, the carbon assimilation and growth limitation by the carbon source were studied for the microalga Chlorella vulgaris.

CHEMICAL ENGINEERING SCIENCE (2021)

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Article Multidisciplinary Sciences

Eccentricity-paced monsoon variability on the northeastern Tibetan Plateau in the Late Oligocene high CO2 world

Hong Ao et al.

Summary: The study suggests that in the Late Oligocene high CO2 world, precipitation variability on the northeastern Tibetan Plateau was primarily influenced by low-latitude summer insolation and fluctuations of the Antarctic Ice Sheet.

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Hooi Ren Lim et al.

Summary: Spirulina biomass accounts for 30% of global algae biomass production, with chemical-based cultivation contributing significantly to production costs and environmental impact. Recent advancements focus on alternative culture media like wastewater medium to ensure sustainability, while coupling with wastewater treatment technology helps eliminate negative impacts and supports Spirulina growth, offering solutions to environmental pollution and generating value-added products.

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Summary: Microalgae cultivation, absorption, adsorption, and membrane separation are considered promising technologies for CO2 sequestration from flue gas. Comparative carbon balance analysis indicates that microalgae cultivation in open raceway ponds is effective for CO2 capture, second only to membrane separation. Further studies on microalgae species and cultivation systems show potential for improving CO2 capture efficiency.

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Microporous Diaphragm Aerator Improves Flue Gas CO2 Dissolution and Photosynthetic Characteristics of Arthrospira Cells in 660 m2 Raceway Ponds

Yanmei Song et al.

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Improving light distribution and light/dark cycle of 900 L tangential spiral-flow column photobioreactors to promote CO2 fixation with Arthrospira sp. cells

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