Algal nutrient solutions are made up of a mixture of chemical salts and seawater. Sometimes referred to as "

Growth Media A growth medium or culture medium is a solid, liquid, or semi-solid designed to support the growth of a population of microorganisms or cells via the process of cell proliferation or small plants like the moss ''Physcomitrella patens''. Different ...

", nutrient solutions (along with carbon dioxide and light), provide the materials needed for

algae Algae (; singular alga ) is an informal term for a large and diverse group of photosynthetic eukaryotic organisms. It is a polyphyletic grouping that includes species from multiple distinct clades. Included organisms range from unicellular mic ...

to grow. Nutrient solutions (e.g., Hoagland solution), as opposed to fertilizers, are designed specifically for use in aquatic environments and their composition is much more precise.In a unified system, algal biomass can be collected by utilizing carbon dioxide emanating from power plants and wastewater discharged by both industrial and domestic sources. This approach allows for the concurrent exploitation of the microalgae's capabilities in both carbon dioxide fixation and wastewater treatment.Algae, macroalgae, and microalgae hold promise in addressing critical global challenges. Sustainable development goals can be advanced through algae-based solutions, to promote a healthy global ecosystem.

Infrastructure

There are two infrastructures for creating algae-based solutions: open ponds/raceway ponds or Photo-Bio Reactors (PBRs).

Photo-Bio Reactors

Photobioreactors are becoming more prevalent in the cultivation of algae, particularly for the production of valuable resources and small-scale experimental applications. Recently, there has been an increased consideration of using photobioreactors for large-scale algal biomass production, driven by their ability to create ideal growth conditions. Enclosed reactors offer protection against bacterial contamination, and the use of shallow tubing ensures effective utilization of light. The infusion of CO2 through bubbling enhances the efficiency of carbon uptake, while the design minimizes water loss. In comparison to raceway ponds, photobioreactors exhibit significantly higher rates of productivity.

Raceway (open) Ponds

Raceway ponds, much like the oxidation ditches utilized in wastewater treatment systems, are expansive open basins distinguished by their shallow depths and lengths that far exceed their widths. Typically, they are constructed with a concrete shell lined with polyvinyl chloride ( PVC), boasting dimensions that vary from 10 to 100 meters in length and 1 to 10 meters in width, with depths ranging from 10 to 50 centimeters. William J. Oswald, was a figure in the field of environmental engineering, particularly known for his contributions to wastewater treatment and algal cultivation. William J. Oswald is renowned for his research on the use of algae in wastewater treatment. He advocated for the integration of algal ponds with wastewater treatment plants as a cost-effective and environmentally friendly method for nutrient removal and biomass production. In the 1950s, Oswald championed the open pond as the most feasible approach to integrate algal cultivation with wastewater treatment. His work in the 1950s and beyond helped pave the way for the development and implementation of algal-based treatment systems worldwide.

Process

To make the most of the biomass, it's crucial to efficiently gather the algae at the start of the processing stage. The method chosen for harvesting depends on the type of algae being grown. Microalgae, with their small cell size, need more advanced harvesting techniques compared to larger macroalgae. Often, a combination of methods is used to achieve a final biomass that has the right moisture content. Common ways to harvest algae include using microfilters, causing particles to clump together (

flocculation Flocculation, in the field of chemistry, is a process by which colloidal particles come out of suspension to sediment under the form of floc or flake, either spontaneously or due to the addition of a clarifying agent. The action differs from pr ...

), allowing them to settle ( sedimentation), using flotation, and employing

centrifuges A centrifuge is a device that uses centrifugal force to separate various components of a fluid. This is achieved by spinning the fluid at high speed within a container, thereby separating fluids of different densities (e.g. cream from milk) or l ...

Benefits

Biodiesel stands as a promising contender in relation to traditional fossil diesel fuel. The rapid growth, boasting up to 4–6 harvest cycles annually, presents a notable advantage. Unlike predecessors in biofuel production, macroalgae thrive in aquatic environments, sidestepping concerns over land use and freshwater consumption. It surpasses terrestrial biomass in several aspects: yielding higher levels of carbohydrates and biomass, enjoying widespread availability, and avoiding competition with food crops or arable land. The quality of their by-products adds to their appeal. Notably, their capacity to sequester CO2 and integrate seamlessly into

wastewater treatment Wastewater treatment is a process used to remove contaminants from wastewater and convert it into an effluent that can be returned to the water cycle. Once returned to the water cycle, the effluent creates an acceptable impact on the environme ...

processes enhances the sustainable energy initiative aspect. Macroalgae thrive in diverse environments, from saltwater to municipal wastewater, requiring neither arable land nor industrial fertilizers. Moreover, they can be harnessed for biomethane production through thermal or biological

gasification Gasification is a process that converts biomass- or fossil fuel-based carbonaceous materials into gases, including as the largest fractions: nitrogen (N2), carbon monoxide (CO), hydrogen (H2), and carbon dioxide (). This is achieved by reacting ...

, offering flexibility in biomass selection.

Nutritional Value and Alternative Uses

In recent years, significant attention has focused on the potential of microalgae as a biofuel source. Microalgae, yielding between 19,000 – 57,000 liters of oil per acre annually, surpassing other forms of biodiesel resources. This oil is then transformed into biodiesel using conventional transesterification methods. The residual biomass harbors valuable components such as lipids, proteins, and soluble polysaccharides. These components can be leveraged for the production of

bio-oil Pyrolysis oil, sometimes also known as bio-crude or bio-oil, is a synthetic fuel under investigation as substitute for petroleum. It is obtained by heating dried biomass without oxygen in a reactor at a temperature of about with subsequent cool ...

, bioethanol, biohydrogen, and biogas through diverse

thermochemical Thermochemistry is the study of the heat energy which is associated with chemical reactions and/or phase changes such as melting and boiling. A reaction may release or absorb energy, and a phase change may do the same. Thermochemistry focuses on ...

and

biochemical Biochemistry or biological chemistry is the study of chemical processes within and relating to living organisms. A sub-discipline of both chemistry and biology, biochemistry may be divided into three fields: structural biology, enzymology an ...

pathways, thereby enhancing the overall energy balance. Algae can also serve as an alternative food source for humans. It typically boasts abundant protein levels, particularly in red varieties like Pyropia tenera, where it may constitute as much as 47% of the dry mass. These proteins are valuable not only as a dietary protein source, providing essential amino acids, but also for their bioactive properties, including specific enzymes. Algae is an alternative for gelatin and can also be a much more natural/healthier source for creating low carb, gluten and fat-free foods. Algae presents a distinct advantage over traditional food and feed sources, as it does not compete with them and does not require changes in land use. This characteristic makes algal-based fuels a promising solution to alleviate the food versus fuel dilemma in the future. Unlike other biofuels, algal feedstock remains unaffected by fluctuations in food market prices, ensuring greater price stability for consumers of algal-based fuel. Algae possess significant promise due to their rapid growth rate and exceptional yield per

hectare The hectare (; SI symbol: ha) is a non-SI metric unit of area equal to a square with 100-metre sides (1 hm2), or 10,000 m2, and is primarily used in the measurement of land. There are 100 hectares in one square kilometre. An acre is a ...

, surpassing that of land-based biomass by a considerable margin. Renowned as the swiftest proliferating organisms on Earth, they can reproduce within mere hours. Research conducted underscores their remarkable capacity, demonstrating growth rates 20–30 times faster than food crops and yielding up to 30 times more fuel than alternative biofuel sources.

Environmental Sustainability

Algae exhibits geographical versatility, capable of thriving in diverse climates, including the most severe environments on Earth. They demonstrate adaptability across varying altitudes, latitudes, and geographies, without the need for agriculturally productive or environmentally sensitive land for reproduction. Unlike energy crops like

oil palm ''Elaeis'' () is a genus of palms containing two species, called oil palms. They are used in commercial agriculture in the production of palm oil. The African oil palm ''Elaeis guineensis'' (the species name ''guineensis'' referring to its co ...

and rapeseed, which have sparked sustainability concerns due to food versus fuel competition and land occupation. Algae does not compete with crops for

arable land Arable land (from the la, arabilis, "able to be ploughed") is any land capable of being ploughed and used to grow crops.''Oxford English Dictionary'', "arable, ''adj''. and ''n.''" Oxford University Press (Oxford), 2013. Alternatively, for the ...

and can utilize wastelands unsuitable for agriculture owing to their ability to adapt to harsh environments. Furthermore, the adaptability enables survival in industrial, municipal, and agricultural wastewaters, as well as on landfills, facilitating wastewater treatment by nutrient removal such as

nitrogen Nitrogen is the chemical element with the symbol N and atomic number 7. Nitrogen is a nonmetal and the lightest member of group 15 of the periodic table, often called the pnictogens. It is a common element in the universe, estimated at se ...

(N) and

phosphorus Phosphorus is a chemical element with the symbol P and atomic number 15. Elemental phosphorus exists in two major forms, white phosphorus and red phosphorus, but because it is highly reactive, phosphorus is never found as a free element on Ear ...

(P), thereby contributing to community access to clean water.

Limitations

Environmental Impact and Management Challenges

Within aquatic ecosystems, algae assumes a pivotal role by utilizing photosynthesis to transform water and carbon dioxide into sugar, concurrently releasing oxygen as a by-product. However, inadequate management can create significant environmental consequences. One outcome is the manifestation of

algae blooms An algal bloom or algae bloom is a rapid increase or accumulation in the population of algae in freshwater or marine water systems. It is often recognized by the discoloration in the water from the algae's pigments. The term ''algae'' encompa ...

eutrophication Eutrophication is the process by which an entire body of water, or parts of it, becomes progressively enriched with minerals and nutrients, particularly nitrogen and phosphorus. It has also been defined as "nutrient-induced increase in phytopla ...

, primarily triggered by runoff from land sources. This leads to an excessive nutrient influx, fostering the overgrowth of algae. Upon the decay of these algal blooms, bacteria consume a substantial amount of dissolved oxygen, depleting oxygen levels in the water. This occurrence can result in the formation of dead zones or hypoxia, characterized by minimal or no oxygen, rendering them unsuitable for aquatic life.

Challenges in Algae Cultivation Infrastructure

Although open ponds can be used for algae cultivation, they are low production which can take year-round development.PBRs are mainly for small scale use despite their high-productivity. The limitations also stem from their high energy and cost demands during both production and operation phases. Unlike alternative infrastructure, PBRs require significantly larger surface areas for the volume of algal broth, leading to greater material volumes and subsequent spikes in capital energy input. These factors elevate environmental impacts associated with their implementation.

Production Cost and Technological Barriers

Despite the immense potential of both macro- and microalgae in various fields, the production cost of algal fuel remains higher compared to fossil fuels. Although strides have been made in reducing nutrient costs by utilizing wastewater and flue gases, the expenses associated with mechanical equipment and technologies remain substantial. Essentially, the foundational processes involved in the production and commercialization of algae biofuels persist as significant barriers. Similarly, effectively utilizing chemicals, technology, electricity, and labor for microalgal biofuel production poses considerable challenges. Cultivating microalgae in both closed and open reactors under optimal pH, temperature, and light conditions is crucial for achieving rapid biomass doubling and high productivity.

Processing Challenges and Resource Availability

The complex procedures involved in processing algae cells pose limitations on their use as a feedstock for biodiesel production. Hence, researchers must prioritize addressing these challenges and enhancing production efficiency. Essential for algal development are solar light, carbon dioxide, water, and various nutrients such as nitrogen, sulfur, phosphorus, and iron. However, ensuring the availability of these nutrient sources and maintaining suitable environmental conditions amidst changing climatic patterns presents sustainability challenges. Cost is another significant hurdle, as the expenses associated with growing and harvesting algae are considerable. Utilizing wastewater for cultivating algae emerges as one cost-effective strategy.

References

External links

University of Texas growth media recipes

an

(CCMP, Bigelow Laboratory for Ocean Sciences) {{plankton Algaculture High lipid content microalgae