Title: MAGE: A Method for Estimating the Maximum Possible Chemical Energy Content of UCG Product Gas for a Multistrata Coal Zone

Three articles on coal deposits in Utah have been entered individually into EDB and ERA. They deal with the methane content, degassing and the chemical composition of the coals and ashes. (LTN)

The use of coal as a source of high Btu gas is currently viewed as one possible means of supplementing dwindling natural gas supplies. While certain coal gasification processes have demonstrated technical feasibility, much uncertainty and inconsistency remains regarding the capital and operating costs of large scale coal conversion facilities; cost estimates may vary by as much as 50%. Studies conducted for the American Gas Association (AGA) and US Energy Research and Development Administration by C.F. Braun and Co. have defined technical specifications and cost guidelines for estimating costs of coal gasification technologies (AGA Guidelines). Based on the AGA Guidelines,more » Braun has also prepared cost estimates for selected coal gasification processes. Recent efforts by International Research and Technology Inc. (IR and T) have led to development of the Materials-Process-Product Model (MPPM), a comprehensive anaytic tool for evaluation of processes and costs for coal gasification and other coal conversion technologies. This validation of the MPPM presents a comparison of engineering and cost computation methodologies employed in the MPPM to those employed by Braun and comparison of MPPM results to Braun cost estimates. These comparisons indicate that the MPPM has the potential to be a valuable tool for assisting in the evaluation of coal gasification technologies.« less

This study assesses the technical and economic feasibility of blending a medium-Btu gas (BMG) produced from coal by the Winkler fluidized bed gasification process with excess refinery fuel gas to be used as an industrial fuel in Billings, Montana. This report includes a discussion of the background of the project; the site selection process; the conceptual design of the process and supporting facilities; the retrofit requirements and other costs associated with burning the MBG; the environmental and permitting aspects of the project; the cost estimates and economic considerations; the contract provisions for MBG buy/sell agreements; the government's role in supportingmore » the project; and the market potential for the project in Billings and similar projects in other markets. The study concludes that the project is technically feasible and economically viable today although parity with conventional fuels will not occur until 1985.« less