Alliance Bioenergy Plus, Inc. Announces its 4Th Generation Cellulose-To-Sugar Prototype Successfully Processed King Grass At 30 Times Higher Capacity Than the 3rd Generation Prototype with Comparable Conversion Rates Per Run
October 27, 2020 at 12:00 pm
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Alliance Bioenergy Plus, Inc. announced that its 4th generation Cellulose-to-Sugar prototype successfully processed King Grass at 30 times higher capacity than the 3rd generation prototype with comparable conversion rates per run. The company is now upgrading the 4th generation prototype and has acquired larger feedstock preparation equipment to process the King Grass from test plot acreage to be able to test the prototype with longer run times and much higher volumes. The company does not anticipate any significant difference with longer test runs, and has begun to design and determine the cost of a 5th generation prototype, which is expected to be semi-commercial scale.
Blue Biofuels, Inc. is a technology company focused on emerging technologies in the renewable energy, biofuels, and bioplastics sectors. The Company has developed a technology system it calls Cellulose-to-Sugar (CTS). The CTS is a mechanical/chemical dry process for converting cellulose material into sugar for use in the biofuels industry. The CTS system converts plant-based feedstock into one primary product, soluble sugars, which can be further processed into cellulosic ethanol and other biofuels like jet fuel, and potentially into bio chemicals. CTS is a sustainable and renewable green energy system with the potential to achieve a near-zero carbon footprint. The CTS process can convert virtually any plant material grasses, forestry products, and agricultural waste, such as sugarcane bagasse and wheat straw into sugars and lignin may be further processed into a variety of products. Sugars are subsequently processed into biofuels, such as ethanol and sustainable aviation fuel.
Alliance Bioenergy Plus, Inc. Announces its 4Th Generation Cellulose-To-Sugar Prototype Successfully Processed King Grass At 30 Times Higher Capacity Than the 3rd Generation Prototype with Comparable Conversion Rates Per Run