Zalety technologii wysokotemperaturowego spalania objętościowego HiTAC w procesach utylizacji gazów odpadowych i niskokalorycznych

• Autorzy: Szewczyk D. , Skotnicki P.

Warianty tytułu

EN

Advantages of the HiTAC high-temperature volumetric combustion technology for treating waste and low calorific gases

• Języki publikacji: PL

Abstrakty

PL

Wprowadzenie rygorystycznych norm emisji, jak również wzrost kosztów paliw zaowocował zainteresowaniem przedsiębiorców technologiami efektywnej utylizacji gazów odpadowych i niskokalorycznych, umożliwiającymi jednocześnie wykorzystanie energii tych gazów. Technologią, która wychodzi naprzeciw oczekiwaniom przedsiębiorców jest technologia wysokotemperaturowego spalania objętościowego HiTAC.

EN

The introduction of stringent emission standards followed by a fuel price increase prompted entrepreneurs to look for efficient technologies of treating and extracting energy from waste and low calorific gases. The HiTAC high-temperature volumetric combustion technology is an answer to their demands.

Słowa kluczowe

PL

technologia wysokotemperaturowego spalania objętościowego HiTAC; utylizacja gazów odpadowych i niskokalorycznych

• Wydawca: AXIS MEDIA s.c.
• Czasopismo: Piece Przemysłowe & Kotły
• Rocznik: 2012
• Tom: 7-8
• Strony: 31--39
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Szewczyk D.

autor

Skotnicki P.

Bibliografia

• [1] Szewczyk D., Kamecki A., Skotnicki P., Szydłowski A.: Copper blast furnace waste gas utilization system as a new field of HiTAC combustion technology, 8 HiTACG 2010, July, 5-7, 2010, Poznań
• [2] Blasiak W., Yang W.: Volumetric combustion of coal and biomass in boilers, 7th High Temperature Air Combustion and Gasification International Conference, HiTACG 2008, January, 13-16, 2008, Phuket, Thailand
• [3] Hasegawa T., Kishimoto S., Suzukawa Y.: Environmentally - compatible Regenerative Combustion Heating System, 2001 Joint International Combustion Symposium. September. 9-12. 2001, Hawaii, USA
• [4] Szewczyk D., Dobski T.: Combustion of low caloric natural gases in highly preheated air, 17th International Symposium on Combustion Processes, September, 24-27, 2001, Poznań, Poland
• [5] Rafidi N., Blasiak W., Measurements of Flue Gases Compositions and Flame Volume in High Temperature Air Combustion (HiTAC) Furnace, Finnish – Swedish Flame Days 2002, September
• [6] Yasuda, T., Super Advanced Regenerative Industrial Furnace Nippon Furnace Kogyou Kaisha, Ltd.
• [7] Szewczyk D., Forsberg B.: High-Cycle Regenerative Systems (HRS burners) and High Temperature Air Combustion Technology (HiTAC) – European Industrial Application.ISNGU, September 25-26, 2006, Poznań, Poland
• [8] Mohri T., Yoshioka T., Hozumi Y. Shiozaki T., Hasegawa T., Mochida S., Tauchi M., Maruyama S.: Development on Advanced High-Temperature Air Combustion Technology for Steam Reforming Process, 2001 Joint International Combustion Symposium, September, 9-12, 2001, Hawaii, USA
• [9] Blasiak W., Mörtberg M., Rafidi N., Krishnamurthy N, Yang W., Kalisz S., Szewczyk D.: Study and application of High Temperature Air Combustion for gas fuels and wastes, 14th IFRF Members' Conference, Noordwijkerhout, The Netherlands, May 2004
• [10] Frédéric Aguilé, Alain Quinqueneau,: Overview of the Gaz de France R&D Activities on Flameless Oxidation applied to high temperature processes
• [11] Quinqueneau A.: Integration of the new high-performance low- NOx techniques, called “flameless oxidation”, into industrial processes using natural gas, 14th IFRF Members Conference, Noordwijkerhout, The Netherlands, May 2004
• [12] Tsuji H., Gupta A.K., Hasegawa T., Katsuki M., Kishimoto K., Morita M.: High Temperature Air Combustion:From Energy Conservation to Pollution Reduction, CRC Press, 2003.
• [13] Pronk. P, P.D.J. Hoppesteyn: Increasing the capacity and fuel efficiency of reheat furnaces for steel slabs, 8th European Conference on IndustrialFurnaces and Boilers,March, 25-28, 2008, Vilamoura.
• [14] Weber R. Mancini M.: Recent developments in flameless combustion technology, COMBURA 2009.
• [15] Dobski T., Slefarski R., Janowski R.: Combustion gases in highly preheated air (HiTAC) technology, Archivum Combustions, Vol. 28., 2008 No 3-4.
• [16] Pronk. P, Lewis. B, P.D.J. Hoppesteyn: Industrial Application of High Efficiency Combustion, 15th IFRF Members’ Conference, June, 13-15, 2007, Pisa, Italy.
• [17] Tanaka R, Hasegawa T.: Innovative technology to change flame characteristics with highly preheated air combustion, Japanese Flame Days 97, JFRC 20th Anniversary, Osaka, Japan, May 16-17th 1997
• [18] Ashwani K. Gupta,: Flame characteristics and challenges with High Temperature Air Combustion, 2000 International Joint Power Generation Conference Miami Beach, Florida, July 23-26, 2000
• [19] Blasiak W., Szewczyk D., Dobski T.: Influence of N2 addition on combustion of single jet of methane in highly preheated air, International Joint Power Generation Conference, June, 4-7, 2001, New Orleans, Louisiana, USA