This quantity is a part of the Ceramic Engineering and technology continuing (CESP) series. This sequence incorporates a selection of papers facing matters in either conventional ceramics (i.e., glass, whitewares, refractories, and porcelain tooth) and complicated ceramics. themes lined within the zone of complicated ceramic contain bioceramics, nanomaterials, composites, sturdy oxide gas cells, mechanical houses and structural layout, complex ceramic coatings, ceramic armor, porous ceramics, and more.
Content:
Chapter 1 Emission keep watch over for Glass?Production Furnaces: A comparability of wishes and supply (pages 129–136): A. J. Teller
Chapter 2 Kerr's Evolution with Baghouses for Particulate keep an eye on from box Furnaces (pages 137–143): Bruce F. Semans and Kurt B. Ruch
Chapter three non-stop tracking of NOx Emissions from Glass Furnaces (pages 144–158): S. C. Hunter
Chapter four Postcombustion NOx keep an eye on know-how for Glass Furnaces (pages 159–164): J. T. Destafano
Chapter five a good approach to Combustion regulate and warmth restoration for Regenerative Furnaces, half I (pages 165–175): R. J. Naveaux and J. J. Shea
Chapter 6 Air administration for Regenerative Glass Furnaces (pages 176–185): John T. Brown
Chapter 7 Low Soda Glass improvement (pages 186–191): ok. Bingham
Chapter eight historical past of hot temperature fabrics for Hot?Glass dealing with in Owens?Illinois Bottle vegetation (pages 192–197): Burton W. Spear
Chapter nine The decision of Refractory Contaminants in Container?Glass uncooked fabrics (pages 198–206): W. W. Kephart, W. M. Kilpatrick and J. R. Leblanc
Chapter 10 Glass boxes and the patron (pages 207–211): Michael D. Cromb
Chapter eleven Glass Recycling (pages 212–217): J. A. Minns
Chapter 12 Platinum?Glass Reactions (pages 218–228): J. H. Cowan
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Additional info for Proceedings of the 42nd Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume 3, Issue 3/4
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Flue-gas-treatment devices, at the start of our investigation, could generally be categorized into four groups: 1) Selective, catalytic reduction; 1) 2) 3) 4) 5) 160 2) Selective, noncatalytic reduction; 3) Noncatalytic, hydrocarbon reduction; and 4) Wet scrubbing. It is not my intent to give a technical dissertation on the advantages and disadvantages of these various processes. The remainder of this paper will describe how PPG investigated these various processes with the governmental regulatory agencies present as a third party in that investigation.
Inc. 3400 Executive Parkway, Toledo, Ohio 43606 Introduction The regenerative furnace was first invented by Robert Stirling in 1816 and was applied to glassmelting by Fredrick Siemens. When we compare the details of the original invention with the furnace design practices of today, we must conclude that little change has been made in the original concept. It has been only since the late 1960s, when fuel costs started to climb, that efficiency became a priority concern. Then, with the oil embargo in the 1970s and the resulting energy crisis in the United States, intensive efforts were made to improve the efficiency of regenerative furnaces.
4 was a series of meetings held in Los Angeles and Denver. S. licensees to attend meetings that were open to any representative of the glass industry. These six comprised all of the firms that we were aware of that purported to have a selective, catalytic reduction process for NO, removal. Three of these six firms attended and made presentations to the industry representatives on their processes. As we gained more knowledge of the state-of-the-art of NO,-reduction/ removal processes, it became apparent that most of the effort came from Japan in the form of selective, catalytic reduction.