19 reasons why algae may be the next sustainable building technology

[Australia] What do a professor of marine biology, an architect and a building surveyor have in common? Algae.

Biomass, biofuels and buildings

Biotechnologists are investigating biofuels as alternatives to fossil fuels. Corn, soybean and sugarcane produce a range of biofuels; however, they add to water scarcity, deforestation and large areas of land are used. An alternative is microalgae.

We need to design and retrofit our built environment to promote a low carbon economy using alternatives to fossil fuel. The current focus has been on wind, solar and geothermal, however one Hamburg apartment building uses algae for heating and hot water. Is algae the next sustainable building technology? Could it work in Australia? A trans-disciplinary team at UTS in the Faculties of Science and Design Architecture and Building explored these questions in a feasibility study with property industry stakeholders from NSW. We found 19 reasons why algae may be the next sustainable building technology.

In 2013, renewables represented 22 per cent of total global energy production, though adoption is unequal between types. In 2014, the European Union produced 72 per cent of renewables, whereas Australia produced just 13.5 per cent. Bioenergy sources contributed just one per cent to total Australian renewable energy – there is scope for improvement.

Global production of energy from biomass reached 88 gigawatts in 2014. With 116.1 billion litres of biofuels alone, it is no longer a transition energy source. The Clean Energy Council’s Bioenergy Roadmap proposed by 2020 the contribution from Australian biomass could be 10,624 GWh per year. Long-term potential for biomass produced electricity in 2050 could be 72,629 GWh/year, according to the Clean Energy Council. Algae sequester carbon therefore has an important role in climate change mitigation whilst also making energy.

Algae building technology explained

The BIQ House in Hamburg has 200 square metres of integrated photo-bioreactors (PBR) in 120 façade-mounted panels that generate algal biomass and heat as renewable energy. The algae façade panels provide a thermally controlled microclimate, noise abatement and dynamic shading.

 

BIQ
BIQ

The biomass and heat are transported to an energy management centre, where the biomass is harvested and heat is recovered by a heat exchanger. Excess heat from the PBRs pre-heats domestic hot water, warms the building interiors, or is stored under the building. Algae biomass is converted to biogas and powers a small-scale combined heat and power micro-turbine, generating electricity and heat; providing around a third of the total heat for 15 apartments. More sunlight makes the algae grow more rapidly which could make it more productive in sunny Australia.

Temperature poses challenges to applying the BIQ system in hotter locations. The maximum growing temperature for the algae species used in the German panel may limit the use of panels to cooler Australian regions, though it is possible to select algae which are tolerant of higher temperatures.

Total solar energy conversion efficiency in Hamburg is 56 per cent. The figures relate to the length of the daylight period and the time that sunlight is on the facades. Compared to other renewables, PV yield an efficiency of 12-15 per cent and solar thermal 60-65 per cent, when placed optimally. Given the total energy conversion of the Hamburg system is lower than conventional solar hot water panels, the building’s bio-responsive façade aims to provide energy directly to several building services systems, providing additional energy benefits through summertime shading, as well as biomass stock for additional use.

So is algae the next sustainable building technology? We asked 23 NSW stakeholders and reviewed the literature, and came up with 19 reasons why this technology just might, in time, be the next sustainable building technology:

  1. Biomass/biofuel is good for the environment
  2. Develops another fuel source
  3. Sequester carbon dioxide
  4. Reduces carbon footprint
  5. Lowers greenhouse gas emissions
  6. Mass adoption could lower urban heat island effect
  7. Reduces loads on existing infrastructure
  8. Need to adopt biology in built environment
  9. Could produce sustainable fabrics as by-product
  10. Innovation points in Green Star
  11. Potential source of protein
  12. Potential revenue from industrial chemicals or sustainable materials
  13. Capital value may increase as unique technology
  14. Long-term savings as fossil-based energy costs increase
  15. Attractive to market if technology can power, light, heat and cool buildings
  16. Interesting, new and innovative
  17. Aesthetically different
  18. Engage minds about biomass and renewables
  19. Very visual statement about sustainability in the built environment

Algae may become an option for designers in the future to incorporate into carbon zero building to deliver sustainability in the built environment. We are some way from that goal currently and need prototype panels to test performance and operation here in Australia.

In collaboration between UTS researchers and industry, funding has been sought to design and fabricate prototype algae panels on campus at UTS. The trans-disciplinary UTS team has expanded to include engineers from the UTS Faculty of Engineering and Information Technology and industry partners are Arup, Lendlease and Steensen Varming. The aim is to set up prototype panels in 2017 to monitor performance and production rates in NSW, as well as to demonstrate the technology and transfer knowledge to UTS students, practitioners and the public.

Innovation by the courageous will move the debate and the technology forward. Slime, it seems, has come a long way.

This article is based on a paper, Feasibility of Algae Building Technology in Sydney, authored by Sara Wilkinson, Professor Peter Ralph (UTS Science), Dr Brenton Hamdorf (UTS Science) and Paul Stoller (UTS Architecture).

Associate Professor Sara Wilkinson is a chartered building surveyor and member of RICS and API based at the University of Technology Sydney.

 

View original article at: 19 reasons why algae may be the next sustainable building technology

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