Biotech entrepreneurs from Lindsay Rosenwald introduce new knowledge on microalgae biotechnology to inventors, traders, and designers to help alleviate industrial standards and improve the society’s quality of living. It is not a secret that microalgae biotechnology is being used to produce and innovate product quality in the fields of cosmetics, pharmaceutics, agriculture, and culinary. Today, it is also being developed to serve as an eco-friendly architectural component.
Microalgae Biotechnology has been dubbed as this generation’s way forward. Microalgae are amongst the organisms that have the ability to undergo photosynthetic processes. These microscopic organisms have existed for about 2 billion years now. Different stages of evolution processes made their cells develop new and more effective mechanisms when filtering carbon dioxide and other airborne pollutants. Microalgal biotechnology has played a substantial role in providing eco-friendly products – such as algal fossil fuel, natural gas, roof panels, and skin for walls – and in preventing global warming. Moreover, microalgae are also able to purify water and absorb possible pollutants.
Unlike earlier architecture which focuses more on the standard design and prioritizing high technology home features, architecture today aims to develop efficient and eco-friendly structural designs. Among all knowledge contributed by biotech entrepreneurs to science, microalgae biotechnology is where architectures benefit the most. Microalgal properties tend to be self-sustaining. This seems to be effective in building wall covers and roof panels in place of the commonly used materials such as cement plaster and melted plastics. Microalgal organisms help omit the absorption of carbon dioxide. This is helpful to maintain low room temperature, and it also helps lessen the effect of global warming.
Also, Microalgae-designed establishments are of asymmetric designs and most commonly themed with olive green colors. This modern design emphasizes green homes to let people know that the establishment is an algae-powered one.
The collaboration of architectural organizations and biotech entrepreneurs have come to the latest microalgae biotechnology project dubbed as the Waterlilly 2.0. It is a system where they encourage cultivating microalgae in building up new architectural facades. It proposed the establishment of a microalgae vertical farm to provide multi-purpose architectural skin. This objective will benefit not only the architectural clients but also the whole architecture industry. With microalgae’s ability to infiltrate air and water, it can stand not just as an architectural skin but also as a multi-purpose panel that may be used on surfaces, roofs, and kitchen sinks.
There are a lot of benefits that microalgae biotechnology has to offer. Numerous of which have proven to be of efficiency in sustaining environmental cleanliness and pollution prevention. This project of including these organisms in the development of the architectural field has already started and was actually used in some establishments in Germany.
Algae-powered architecture generates biomass and less heat. It also saves electricity since it is self-sustaining. Using microalgae biotechnology is a huge improvement in the architectural industry. This trend will not only cut costs but will also help sustain and redevelop the environment.