An Economic Study of the Quick-germ Technology for the Dry-grind Process of Corn Ethanol Production and Its Effects Upon the Corn Oil Market
An Economic Study of the Quick-germ Technology for the Dry-grind Process of Corn Ethanol Production and Its Effects Upon the Corn Oil Market

Author: Edward Duane Yoder

Publisher:

Published: 2006

Total Pages: 120

ISBN-13:

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This study is an economic analysis of the Quick-Germ technology when adapted to a medium sized (32.8 million gallons per year) dry-grind ethanol facility. Quick-Germ combines wet-mill steeping for germ separation for corn oil production in the dry-grind ethanol process in order to lower net feedstock costs. Previously published economic analysis budgets of a dry-grind ethanol facility and a proposed similarly adapted Quick-Germ adapted facility were used to create a model to determine the break-even production price of ethanol. Then, it was determined how much corn oil could be produced before the additional supply would lower the price enough to prevent market profitability. It was calculated that the Quick-Germ technology could potentially lower the break-even price of ethanol production by $0.054 per gallon. Also, approximately ten Quick-Germ converted dry-grind ethanol facilities producing approximately 197 million pounds of corn oil a year prevents additional profitable entry into the corn oil market.

Engineering Economic Analysis of the Quick-germ
Engineering Economic Analysis of the Quick-germ

Author: Tao Lin

Publisher:

Published: 2010

Total Pages:

ISBN-13:

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It has been widely debated whether producing ethanol from corn is sustainable in the long term. Environmentally, the major concern is that producing ethanol from corn involves intensive water and energy consumption. Economically, recent fluctuations in petroleum, ethanol, and corn prices have driven several large producers of ethanol into bankruptcy. The ethanol industry is vulnerable to periods of economic weakness because its product value varies with oil prices but its raw material (corn) varies with food prices. To improve the economic sustainability of corn-to-ethanol production, several modified dry grind processes had been developed at the lab scale. The Quick-germ / Quick-fiber (QQ) process is one of them. However, there has been no analysis of the QQ process that provides detailed information related to the energy, water, and economic performance at a commercial scale. To determine the both environmental and economic performance, a process simulation model was developed on the SuperPro Designer® platform to simulate the QQ process, and compared to the conventional dry grind model. Results indicate that germ and fiber recovery as done in the QQ process improves the process capacity of a conventional dry grind ethanol facility by approximately 24%. Because of germ and fiber recovery at the front end, the ethanol concentration has been increased to 15% (w/w) as compared to 10.9 (w/w) in the conventional dry grind process. The QQ process reduces the energy and water consumption by 32% and 17.8%, respectively. The QQ process produces more value-added coproducts, including corn germ, corn fiber, and a modified distillers dried grains with solubles (DDGS), but has a lower ethanol yield rate due to some starch losses to the recovered germ and fiber fractions at the front end. A detailed cost and benefit analysis of the QQ process, based on the market prices in April 2009, shows that despite its higher capital investment costs, the QQ process reduces the payback period to 6.5 years, compared to 9.2 years for the conventional dry grind process. Increased ethanol production, more value-added coproducts, as well as significant reduced utility costs are three major contributors to improve the economic performance of the QQ process. This work lays the foundation for the similar studies on the sustainability performance for other modified dry grind ethanol processes.

Encyclopedia of Agricultural, Food, and Biological Engineering
Encyclopedia of Agricultural, Food, and Biological Engineering

Author: Dennis R. Heldman

Publisher: CRC Press

Published: 2010-10-21

Total Pages: 2001

ISBN-13: 1498711073

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Examining the role of engineering in delivery of quality consumer products, this expansive resource covers the development and design of procedures, equipment, and systems utilized in the production and conversion of raw materials into food and nonfood consumer goods. With nearly 2000 photographs, figures, tables, and equations including 128 color figures the book emphasizes and illustrates the various engineering processes associated with the production of materials with agricultural origin. With contributions from more than 350 experts and featuring more than 200 entries and 3600 references, this is the largest and most comprehensive guide on raw production technology.

Feasibility Study for Co-Locating and Integrating Ethanol Production Plants from Corn Starch and Lignocellulosic Feedstocks (Revised)
Feasibility Study for Co-Locating and Integrating Ethanol Production Plants from Corn Starch and Lignocellulosic Feedstocks (Revised)

Author:

Publisher:

Published: 2005

Total Pages: 0

ISBN-13:

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Analysis of the feasibility of co-locating corn-grain-to-ethanol and lignocellulosic ethanol plants and potential savings from combining utilities, ethanol purification, product processing, and fermentation. Although none of the scenarios identified could produce ethanol at lower cost than a straight grain ethanol plant, several were lower cost than a straight cellulosic ethanol plant.

Waste Valorisation
Waste Valorisation

Author: Carol Sze Ki Lin

Publisher: John Wiley & Sons

Published: 2020-09-25

Total Pages: 288

ISBN-13: 1119502748

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A guide to the wide-variety of waste valorisation techniques related to various biomass, waste materials and by products Waste Valorisation provides a comprehensive review of waste chemistry and its application to the generation of value-added products. The authors – noted experts on the topic – offer a clear understanding of waste diversity, drivers and policies governing its valorisation based on the location. The book provides information on the principles behind various valorisation schemes and offers a description of general treatment options with their evaluation guidelines in terms of cost, energy consumption and waste generation. Each of the book's chapters contain an introduction which summarises the current production and processing methods, yields, energy sources and other pertinent information for each specific type of waste. The authors focus on the most relevant novel technologies for value-added processing of waste streams or industrial by-products which can readily be integrated into current waste management systems. They also provide the pertinent technical, economic, social and environmental evaluations of bioconversions as future sustainable technologies in a biorefinery. This important book: Presents the most current technologies which integrate waste and/or by-product valorisation Includes discussions on end-product purity and life-cycle assessment challenges Explores relevant novel technologies for value-added processing of waste streams or industrial by-products which can be integrated into current waste management systems Offers a guide to waste reuse, a key sustainability goal for existing biorefineries wishing to reduce material and environmental costs Written for academic researchers and industrial scientists working in agricultural and food production, bioconversions and waste management professionals, Waste Valorisation is an authoritative guide to the chemistry and applications of waste materials and provides an overview of the most recent developments in the field.