Experimental Aspects of Reverse Combustion in Tar Sands

Reed, Ronald L.; Reed, Denzel W.; Tracht, Joseph H.

doi:10.2118/1313-g1

Cited by 13 publications

(3 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Studies Reed et al (1960) conducted some of the earliest laboratory studies of RC in their investigation for tar sands. They studied propagation of RC in small diameter combustion tubes filled with tar sands.…”

Section: Methodsmentioning

confidence: 99%

Combustion front propagation in underground coal gasification

Dobbs¹,

Krantz²

1990

View full text Add to dashboard Cite

We thank Joseph W. Martin of DOE-METC [or his interest in and encouragement of this work. We are quite grateful to the Washington Irrigation and Development Company (WIDCO), which generously provided access to the Centralia rrfine to obtain coal samples.Special thanks are extended to Roger Paul for arranging this access and Will Greenough for acting as our on-site liason. We thank Dennis McBreen, Rod Gilseth, Mark Hallsey, and Gordy Clapp of Soil Sampling Services, Inc. fox' their diligence and competence in executing the coal coring. Earl Jones and Kevin Leedy of the University of Colorado Facilities Management deserve special thanks for fabricating the reverse _ombustion pressure vessel. We thank Mike Jackson whose Undergraduate Research Opportunity Project and other work helped get the high pressure combustion laboratory in shape. Willy Grothe and Norm Taylor provided invaluable assistance in building the apparatus. We are very thankful to Kathy Dobbs who fabricated thermocouples, scrapped silicon sealant, and helped with hundreds of tasks associated with the experiments. Doug W.ray provided able assistance in photography.

show abstract

Section: Methodsmentioning

confidence: 99%

Combustion front propagation in underground coal gasification

Dobbs¹,

Krantz²

1990

View full text Add to dashboard Cite

show abstract

“…The vectors n and s can be calculated using the lattice parameters of the austenite and martensite phase [15], which can be obtained by XRD line profile measurements. For the current material the lattice parameter for the austenite and martensite phase are 3.5969 Åand 2.87351 Å, respectively.…”

Section: Theorymentioning

confidence: 99%

The influence of austenite texture on the martensitic transformation of an austenitic stainless steel

Hilkhuijsen

Geijselaers

Bor

2013

Journal of Alloys and Compounds

View full text Add to dashboard Cite

“…Barnett [5] found crack formation associated with {10Ī1} double twins in room temperature deformation of rolled and annealed sheet derived from DC (direct cast) billet. Double twins are more favorably oriented for slip of <a> type dislocations than the parent grains from which they form, and large strains in the twins can lead to incompatibility stress and fracture [9,12,13,14,15]. It has also been shown that activation of <c + a> slip rather than <a> slip on non basal planes is responsible in limiting ductility.…”

Section: Adding Value By Thermomechanical Processing (Tmp)mentioning

confidence: 99%

The Technology and Commercialization of Thixomolding®

Decker¹

2012

SSP

View full text Add to dashboard Cite

The history of Thixomolding®, its technology and commercialization are reviewed along with recent evolution of new technology afforded by its metallurgical structure. Since Thixomolding was introduced in the early 1990’s, it has developed to more than 400 Thixomolding machines in the United States, Canada, Japan, China, Taiwan, Hong Kong, Malaysia, Korea, Germany, Belgium and France. Applications have been established in the electronics/communication, automobile, military, hand tool, medical and sporting goods markets. Thixomoldings principal advantages are in net-shaping, consolidation of parts, safety, environmental friendliness, mechanical properties and microstructure. The virtuous isotropic and fine-grained Thixomolded® microstructure has opened the door to derivative thermal mechanical processing for generating nanostructured Mg products of high strength/density along with improved ductility, fatigue strength, corrosion resistance and formability. This thermomechanical processing (TTMP) has been applied recently to the Thixomolded precursor to further refine the grain size and eutectic phases to nanometer sizes - providing yield strength above 300 MPa, fatigue strength of 150 MPa along with elongation of >10%. Alloys so processed include AZ50L, AZ60L, AM60, AZ61L, AZ70L-TH, AZ80, AZ91D, AXJ810-TH and Thixoblended® alloys of higher Zn content. Microstructure is related to processing and properties, as predestined by the Thixomolded microstructure. Fiber Metal Laminate composites based on this nanoMAG TTMP Mg product have demonstrated yield strength up to 900 MPa, with modulus of elasticity of 90 GPa.

show abstract

Experimental Aspects of Reverse Combustion in Tar Sands

Cited by 13 publications

References 0 publications

Combustion front propagation in underground coal gasification

Combustion front propagation in underground coal gasification

The influence of austenite texture on the martensitic transformation of an austenitic stainless steel

The Technology and Commercialization of Thixomolding®

Contact Info

Product

Resources

About