Trade press release
March 13, 2024
Sunburst™ technology is used to separate bio-based building blocks such as lignin, hemicellulose and cellulose from hardwood residues. These can then be used as ingredients and products for bio-based plastics, building materials and even in the cosmetics and pharmaceutical industries. By using innovative pre-treatment technology and enzymatic solutions, Sunburst™ fractionation technology achieves over 90 percent sugar recovery from hardwood biomass. GEA played a key role in the extensive process development of the Sunburst™ fractionation technology in terms of solid-liquid separation. In close cooperation with the customer Fibenol, GEA systematically developed the two process stages of the decanter centrifuge and the disk stack centrifuge for the separation of CS sugars and lignin cellulose, first on a laboratory and then on a pilot scale.
The PFD Fibenol Sunburst Technology process. (Graphic: GEA)
Sunburst™ biofractionation with GEA centrifuges in the further processing stages transforms wood residues into a viscous, chocolate-like liquid in just 20 seconds through a combination of steam, pressure and diluted acid. This is known as "whole slurry". The Sunburst™ process combines steam, pressure and dilute acid in a 20 second reaction. This liquid is used to produce the bio-based building blocks for the manufacture of two important, low-carbon main products. The first is LIGNOVA™: this product can be used directly or further processed into various biochemicals, coatings, adhesives, resins and more. The second is cellulose sugar. It serves as a sustainable alternative for the entire bioprocess industry and enables the production of numerous basic chemicals.
Decanter centrifuges from GEA are equipped with the GEA varipond® system. With varying feed conditions, varipond automatically adjusts the pond depth during operation and therefore stands for efficient and cost-saving separation. The system dispenses with mechanical parts in the product area and discharge zones. The option of automated operation and parameter settings in a recipe program ensures perfect performance with changing process conditions, raw materials and different requirements for the end product.
Function of the GEA GEA varipond® technology Where the clarified liquid exits the decanter bowl, there is an axially adjustable regulating ring that determines the gap width of the passage opening: smaller gap, greater resistance, lower water discharge, higher liquid level. Intelligent sensor technology regulates the gap width fully automatically depending on the desired liquid level in the decanter bowl by moving the movable regulating ring to the optimum position while the decanter centrifuge is running. (Graphic: GEA)
The GEA varipond® system offers an additional advantage when handling compressible suspended solids. The function enables the decanter centrifuge to handle such solids more effectively by adjusting the liquid level. This hydraulic transport function ensures efficient dewatering and transportation of compressible solids, resulting in improved separation performance and a higher solids content of 2-3 wt% in the discharged product than without the GEA varipond® system.
The Fibenol Sunburst Technology Process is in line with GEA's goal of "Engineering for a better world" by focusing on two key aspects: Maximizing sugar recovery and prioritizing sustainability through the use of sustainable hardwood biomass. Firstly, the process focuses on maximizing sugar recovery. By using innovative pre-treatment technologies and enzymatic solutions, the Sunburst Technology Process achieves over 95% of sugar recovery. This focus on efficient sugar extraction from biomass is in line with GEA's commitment to engineering solutions that optimize resource utilization and maximize productivity. This demonstrates GEA's commitment to utilizing the full potential of natural resources in a sustainable and efficient way.
Secondly, the Sunburst Technology Process emphasizes sustainability through the use of sustainable hardwood biomass. By using renewable biomass as a feedstock, the process reduces reliance on fossil fuels, which supports the overall goal of promoting environmentally friendly practices. This approach helps to reduce the impact on the environment by reducing carbon emissions, minimizing waste and utilizing a renewable resource that can be replenished.
By prioritizing sustainability and maximizing sugar recovery, the Fibenol Sunburst Technology Process is an example of GEA's commitment to engineering solutions that contribute to a better world. It meets the need for sustainable alternatives in the bioenergy and biochemical industries and offers an innovative approach that aligns with environmental goals and reduces dependence on finite resources.
Trees cover around 30 percent of our planet's surface and are home to millions of plant and animal species. They purify the air and produce oxygen, protect the soil from erosion and improve water quality. At the same time, trees are part of the largest renewable biomass on earth: plants. Wood is a circular material that is used for an infinite number of purposes in our daily lives. Sustainable forest management is therefore key to maintaining healthy ecosystems and ensuring the availability of green materials.
Fibenol is dedicated to creating a sustainable future by developing and producing bio-based alternatives to fossil-based materials. This includes producing a range of biomaterials such as LIGNOVA lignin, C5 and C6 cellulosic sugars, and specialty celluloses. These sustainable building blocks can replace conventional fossil-based materials in various industries, including plastics, construction, adhesives, cosmetics, etc. Optimizing wood valorization is the way to transition industries from fossil to bio-based materials.
نبذة عن GEA تعتبر GEA واحدة من أكبر الموردين لصناعة معالجة الأغذية ومجموعة واسعة من الصناعات الأخرى والتي حققت إيرادات موحدة بلغت قُرابة 4.9 مليار يورو في عام 2019. تتخصص المجموعة الدولية للتكنولوجيا في الآلات والمصانع، وكذلك تكنولوجيا