Oszczędzanie energii w przemyśle ceramiki budowlanej : zalecenia opracowane w oparciu o wstępne wyniki projektu Unii Europejskiej CERAMIN

• Autorzy: Jaegermann Z. , Łukasik W.
• Języki publikacji: PL

Słowa kluczowe

PL

przemysł ceramiczny; zalecenia; energetyka; zużycie energii; masa ceramiczna; formowanie; suszenie; wypalanie

EN

ceramic industry; power engineering; energy consumption; ceramic mass; drying; burning

• Wydawca: Związek Pracodawców Ceramiki Budowlanej
• Czasopismo: Ceramika Budowlana
• Rocznik: 2009
• Tom: nr 3
• Strony: 11--16
• Opis fizyczny: Bibliogr. 41 poz., rys., wykr.

Twórcy

autor

Jaegermann Z.

autor

Łukasik W.

• Instytut Szkła, Ceramiki, Materiałów Ogniotrwałych i Budowlanych - Warszawa

Bibliografia

• 1. Hobohm, F.: Massnahmen zur Energieeinsparung. www.keramikinstitut.de, 2008
• 2. Aubertot, C: Petroleum coke - a fuel of the future. ZI Ziegelindustrie Interrnational, 2006, 9, 36-40
• 3. Dörr, J.: Pore-forming with carboniferous clay blends - without strength loss but with a simultaneous energy saving. ZI Ziegelindustrie Interrnational, 2006, 5, 122-129
• 4. Rambaidi, E.: Glass recycling in porcelain stoneware tiles: Firing behaviour. cfi/Ber. DKG, 2004, 3, E32 - E 36
• 5. Junge, K.: Sintering aids for reducing the final firing temperature and energy saving. Zl Ziegelindustrie Interrnational, 1998, 10, 686-687
• 6. WRAP: Glass in Bricks and Tiles. (UK website)
• 7. Bartusch, R.: Potential for saving energy in the Ceramic Industry. Keramische Zeitschrift, 2002, 1, 6-10
• 8. Anonymous: International Brick Plant Operator's Forum in Clemson (USA) with focus on energy saving. ZI Ziegelindustrie International, 2006, 12,8-13
• 9. Bohlmann, C: Reduction of mixing water with additives - a contribution to energy cost saving. ZI Ziegelindustrie International, 1998, 1/2, 35-43
• 10. Gres Acueducto, S.A.: The works and the products an unqualified success. ZI Ziegelindustrie International, 2000, 5, 23-30
• 11. Leisenberg, W.: Ways to efficient use of energy. ZI Ziegelindustrie International, 1998, 7, 434-440
• 12. Ceramicas Casao: High quality, large capacity and low energy consumption. ZI Ziegelindustrie International, 2001, 7, 24-28
• 13. Bauhütte Leitl-Werke GmbH: „Eco Brickworks 2000" operating at full capacity. Zl Ziegelindustrie International, 2001, 5, 16-24
• 14. Unieco Fornace di Fosdondo: Newly developed dryer for the brick factory Fornace di Fosdondo. ZI Ziegelindustrie International, 2008, 1/2, 51-54
• 15. Vogt, S.: Fortschrittliche Trocknungstechnik. www.keramikinstitut.de, 2008
• 16. Vissing, L: Energy consumption in the Danish brick industry. ZI Ziegelindustrie International, 2003,3,21-27
• 17. Junge, K.: Effects of the ban on Sunday working on the energy consumption of heavy clay works. ZI Ziegelindustrie International, 1998, 6, 327-335
• 18. Denissen, J.A.M.: Energy efficient drying, Part 1: Energy efficiency of various techniques in convective drying. ZI Ziegelindustrie International, 1998, 8, 509-517
• 19. Schlosser, M.; New concepts for tile setters and rapid drying in the clay roofing tile industry. Zl Ziegelindustrie International, 2001, 1/2, 25-29
• 20. Rapis-Ziegel Schmidt GmbH: New drying technology in the Rapis brickworks. ZI Ziegelindustrie International, 1999, 9, 73-78
• 21. König, R.: The Laminaris rapid dryer at the Tonwerk Venus in Schwarzach. ZI Ziegelindustrie International, 1998, 8, 502-508
• 22. www.tangram.co.uk: Energy efficiency in ceramics processing, http://www.tangram.co.uk/
• 23. Vogt, S.: Way to efficient use of energy. Zl Ziegelindustrie International, 1998, 8, 496-501
• 24. J. Fifer: Commercial case for airless drying. Br Ceram Trans 97, No 2, 1998, p80 -82
• 25. Cartlidge D: Infrared burner system that can be controlled in red and blue mode with the heating surface being a Sintered Nit, niepublikowane, 2009
• 26. Riedel, R.: The real snag lies in the detail part 1 und 2. ZI Ziegelindustrie International, 2000, 6 und 9, 29-37, 23-32
• 27. Hesse, V.: The problems of energy consumption of tunnel kiln cars in fast firing tunnel kilns. Zl Ziegelindustrie International, 2001, 3, 13-20
• 28. Kettler, H.: Kiln car engineering and energy conservation. ZI Ziegelindustrie International, 2006, 5, 130-133
• 29. Fischer, M.: Möglichkeiten und Grenzen der Energieeinsparung. cfi/Ber. DKG , 2009, 2, D14- D18
• 30. Ronchetti, R.: A new type of kiln for rapid firing of clay roof tiles. ZI Ziegelindustrie International, 2004, 11, 38-42
• 31. Petzold, J: Zalecenia dotyczące eksploatacji pieców ceramicznych, niepublikowane, 2009
• 32. Cartlidge D.v New techniques in the brick industry of the UK, niepublikowane, 2009, 3.
• 33. Mödinger, F.: The utilization of biogas at brickworks. ZI Ziegelindustrie International, 2004, 5, 20-31
• 34. Slater, A.: Fire more or less. cfi/Ber. DKG , 2009, 2, E35-E39
• 35. Hohlfeld, К.: Reduced kiln furniture weight for H-setters for firing roof tiles. ZI Ziegelindustrie International, 2005, 3, 19-28
• 36. Kettler, H.: BurcoLight - Results from practical operations. ZI Ziegelindustrie International, 2008, 5,21-28
• 37. Mori, G.: Roben clay roofing tile plant in Sroda Slaska - designed for 40 million tiles and 4 million accessories per year. ZI Ziegelindustrie International, 2006, 9, 18-27
• 38. Masatishi Nakashima, J.: Clay roofing tile production in Japan. ZI Ziegelindustrie International, 1999,3, 11-17
• 39. Riedel, R.: Combustion air preheating. Zl Ziegelindustrie International, 1999, 11, 30-39
• 40. Rieger, W.: New design of a tunnel kiln structure made of prefabricated lightweight chamotte elements and replacement of the kiln cars by firing pallet circuit. ZI Ziegelindustrie International, 2007, 6/7, 45-55
• 41. Rieger, W.: Flue gas post-combustion in tunnel kilns with utilization of the released heat of combustion for brick drying and firing. Zl Ziegelindustrie International, 2007, 9, 32-42