Materials Challenges for Advanced Combustion and Gasification Fossil Energy Systems

Sridhar, Srikanth; Rozzelle, P.; Morreale, Bryan D.; Alman, David E.

doi:10.1007/s11661-011-0627-x

Cited by 21 publications

(13 citation statements)

References 16 publications

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“…Most common phases that crystallize out during cooling are spinels, anorthite, mullite, hematite group and corundum [92]. The kinetics of crystalline behavior is directly linked to degree of polymerization of melt (or viscosity) and is not well understood [95]. Despite limited theoretical understanding, heterogeneous slag viscosity can be predicted using thermodynamic models in conjunction with empirical viscosity models and/or combination of thermodynamic models and tools like HT-XRD [19,39,[96][97][98].…”

Section: Slag Mobilitymentioning

confidence: 99%

A Critical Review of Mineral Matter Related Issues during Gasification of Coal in Fixed, Fluidized, and Entrained Flow Gasifiers

Krishnamoorthy

Pisupati

2015

Energies

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Gasification of coal is gaining more popularity due to its clean operation, and its ability to generate products for various markets. However, these technologies are not widely commercialized due to reliability and economic issues. Mineral matter in coal plays an important role in affecting the availability/reliability of a gasifier. Agglomeration in the bed, slag mobility and blockage of the syngas exit section are some of the operations related concerns in fixed-bed gasifiers, while ash deposition and sudden defluidization are the major concerns in fluidized bed gasifiers. In the case of entrained flow gasifiers, syngas cooler fouling and blockage, corrosion and erosion of refractory, and slag mobility are some of the major issues affecting the operations and the reliability of the gasifier. This review is aimed at critically examining various mineral matter related issues contributing to the operation and reliability problems in three types of generic gasifiers (fixed bed, fluidized bed and entrained flow gasifiers). Based on the review, some strategies to counter the potential mineral matter related issues are presented.

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Section: Slag Mobilitymentioning

confidence: 99%

A Critical Review of Mineral Matter Related Issues during Gasification of Coal in Fixed, Fluidized, and Entrained Flow Gasifiers

Krishnamoorthy

Pisupati

2015

Energies

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“…Wytrzymałość na pełzanie wybranych stali ferrytycznych i austenitycznych oraz stopów ni stosowanych na rury kotłowe przedstawiono na rysunku 1 [6]. Widać, że w kotłach elektroenergetycznych stale ferrytyczne mogą być stosowane do temperatury nieprzekraczającej 625 o C, a stale austenityczne do temperatury 675 o C. Dlatego na elementy kotłów pracujące w temperaturze powyżej 675 o C niezbędne są stopy na osnowie ni.…”

Section: Zmiany Mikrostruktury W Połączeniach Spawanych Różnoimiennycunclassified

“…Widać, że w kotłach elektroenergetycznych stale ferrytyczne mogą być stosowane do temperatury nieprzekraczającej 625 o C, a stale austenityczne do temperatury 675 o C. Dlatego na elementy kotłów pracujące w temperaturze powyżej 675 o C niezbędne są stopy na osnowie ni. Z badań wynika, że umacniany wydzieleniowo nadstop na osnowie ni, Inconel 740, może być stosowany do temperatury pary 760 o C i ciśnienia 35 MPa [6].…”

Section: Zmiany Mikrostruktury W Połączeniach Spawanych Różnoimiennycunclassified

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Zmiany mikrostruktury w połączeniach spawanych różnoimiennych materiałów stosowanych w energetyce

Blicharski

2013

Przegląd Spawalnictwa

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“…The work reported here is part of a larger study on the reactivity of MCrAlY coatings with fly ash relevant to integrated gasification combined cycle (IGCC) systems [19][20][21][22]. A typical bondcoat composition, Ni-20Co-16Cr-23Al-0.1Y (at.%), and a c-rich, high Cr developmental composition, Ni-30Co-33Cr-12Al-0.1Y, were selected for testing with the following individual oxides at 1100°C: CaO, MgO, Al 2 O 3 , SiO 2 , Fe 2 O 3 .…”

Section: Introductionmentioning

confidence: 99%

High Temperature Reaction of MCrAlY Coating Compositions with CaO Deposits

2015

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The reactivity of b-NiAl ? c-Ni-based NiCoCrAlY alloys with and without CaO deposits was studied by means of isothermal exposures in air. Reaction with CaO at 1100°C produced multi-layer scales of Al 2 O 3 and calcium aluminates, and a mixture of liquid calcium chromate and nickel-cobalt oxide particles. Calcium chromate formation was a rapid, transient process, and the transition to a steady-state of slower Al 2 O 3 growth was favored by increasing the alloy b fraction. The thermally-growing Al 2 O 3 reacted with the deposit to form calcium aluminates in a solid-state diffusion process, which led to an increased oxidation rate. The analysis of Al 2 O 3 growth kinetics in the production-destruction regime was used to account for the increased flux of aluminum entering the multi-layer scale. The effect of temperature on the ability to kinetically sustain an Al 2 O 3 scale was then evaluated on the basis of Wagner's criterion. Predicted results were consistent with the experimentally observed absence of passivation at 900°C.

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Materials Challenges for Advanced Combustion and Gasification Fossil Energy Systems

Cited by 21 publications

References 16 publications

A Critical Review of Mineral Matter Related Issues during Gasification of Coal in Fixed, Fluidized, and Entrained Flow Gasifiers

A Critical Review of Mineral Matter Related Issues during Gasification of Coal in Fixed, Fluidized, and Entrained Flow Gasifiers

Zmiany mikrostruktury w połączeniach spawanych różnoimiennych materiałów stosowanych w energetyce

High Temperature Reaction of MCrAlY Coating Compositions with CaO Deposits

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