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Vilnius Heat Plant, a heat and electricity power station in Lithuania, mainly burns forest waste. Each month, 460 tonnes of wood ash remain as waste. Designer Agne Kucerenkaite and environmental scientist Marija Spokaite are investigating options for utilising this waste, for example for ceramics.
Sources of Waste
‘Vilnius Heat Plant’ is part of ‘Vilniaus Silumos Tinklai’ and operates since 1951. ‘Vilnius Heat Plant’ uses forestry residue (a product from forest harvesting) as a major source of biomass for energy. Within a month they generate around 460 tonnes of wood ash waste, which is costly to dispose of. A small part of the waste is reused for road fillers, although the ashes are non-toxic and consequently could be upcycled. The goal is to find a potentially sustainable solution for these residues, such as circular and healthy interior and exterior ceramic products. Finding a zero-waste option would benefit biomass incineration.
Issues
According to the International Energy Agency (2018), globally, more than 10 million tonnes of ashes are produced from bio-based energy production and most of it is landfilled. In an effort to find a use for such waste, the idea came to integrate it into ceramics. Such a solution is logical as wood ash glazing dates back to 1500BC in China and was the first ever glaze used in East Asia (containing only ash, clay, and water). It became very popular in Asia and is still used by today’s world artisans. It is challenging to find a consistent source of wood ashes and thus they are replaced by controlled synthetic ashes. You must burn a lot of wood or plant matter to make a small amount of usable ash, which is not economic. Biofuel Waste is Bliss project redefines the use of ashes from bioenergy waste streams and creates entirely new formulations and materials.
Research & Products
According to current knowledge, glazes and clay bodies could add up to 50% of ashes or even more. Thorough research is conducted in several directions, such as adding waste in clay and glaze, applying to flat and three-dimensional surfaces, using glazes on different clays (earthenware, stoneware and porcelain), firing within diverse temperature ranges, working with various firing programs and types of kilns. Each change requires different chemical formulations. The result translates into a functional and sustainable ceramic collection of surface materials, such as tiles, panels and bricks. Construction will be an engine of global economic growth in the decade to 2030, according to a recent global forecast. More and more studies show that building materials directly affect human health, therefore, it is important to transition towards healthy materials. The project recovers the value of ash in a functional, process-efficient and scalable way, which results in the high quality, aesthetically pleasing and generational ceramic collection.
