Reduction of sulfur dioxide emissions

Standard

Reduction of sulfur dioxide emissions: book chapter. / Lobanov, V.; Ageev, N.; Pritchin, A.
Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology: book. ed. / B. Mishra. Wiley Periodicals, 2008. p. 327-330.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Harvard

Lobanov, V , Ageev, N & Pritchin, A 2008, Reduction of sulfur dioxide emissions: book chapter. in B Mishra (ed.), Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology: book. Wiley Periodicals, pp. 327-330.

APA

Lobanov, V., Ageev, N., & Pritchin, A. (2008). Reduction of sulfur dioxide emissions: book chapter. In B. Mishra (Ed.), Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology: book (pp. 327-330). Wiley Periodicals.

Vancouver

Lobanov V , Ageev N , Pritchin A. Reduction of sulfur dioxide emissions: book chapter. In Mishra B, editor, Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology: book. Wiley Periodicals. 2008. p. 327-330

Author

Lobanov, V. ; Ageev, N. ; Pritchin, A. / Reduction of sulfur dioxide emissions : book chapter. Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology: book. editor / B. Mishra. Wiley Periodicals, 2008. pp. 327-330

BibTeX

@inproceedings{581b4c39732d45c2bf0f04f5d8381282,

title = "Reduction of sulfur dioxide emissions: book chapter",

abstract = "Sulfuric anhydride is one of the most voluminous technological emissions. The possibility of high-temperature SO 2 oxidations without catalyst in presence of calcium-bearing filling materials (CaO, Ca(OH) 2 and CaCO 3) with obtaining of binding material on the basis of waterless calcium sulfate is studied. Due to application package HSC-4 the thermodynamic analysis of the specified interactions is made and following conclusions are drawn: 1) Reactions are feasible in the all range of investigated temperatures (400-1000 °C); 2) The best results should be expected at use of CaO; 3) The heat of reaction does possible autogenous behavior of process. The researches have shown: 1) Practical possibility of the process; 2) SO 2 oxidation without the catalyst is feasible in presence of CaO, Ca(OH) 2 and CaCO 3; 3) The optimum temperature range is 600-800 °C; 4) The content of waterless calcium sulfate in a product reaches 48% that makes it possible to use as the binding material; 5) At excess of CaO the degree of SO 2 collection is nearer to 100%.",

author = "V. Lobanov and N. Ageev and A. Pritchin",

year = "2008",

language = "English",

isbn = "978-087339726-1",

pages = "327--330",

editor = "B. Mishra",

booktitle = "Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology",

publisher = "Wiley Periodicals",

address = "United States",

}

RIS

TY - GEN

T1 - Reduction of sulfur dioxide emissions

T2 - book chapter

AU - Lobanov, V.

AU - Ageev, N.

AU - Pritchin, A.

PY - 2008

Y1 - 2008

N2 - Sulfuric anhydride is one of the most voluminous technological emissions. The possibility of high-temperature SO 2 oxidations without catalyst in presence of calcium-bearing filling materials (CaO, Ca(OH) 2 and CaCO 3) with obtaining of binding material on the basis of waterless calcium sulfate is studied. Due to application package HSC-4 the thermodynamic analysis of the specified interactions is made and following conclusions are drawn: 1) Reactions are feasible in the all range of investigated temperatures (400-1000 °C); 2) The best results should be expected at use of CaO; 3) The heat of reaction does possible autogenous behavior of process. The researches have shown: 1) Practical possibility of the process; 2) SO 2 oxidation without the catalyst is feasible in presence of CaO, Ca(OH) 2 and CaCO 3; 3) The optimum temperature range is 600-800 °C; 4) The content of waterless calcium sulfate in a product reaches 48% that makes it possible to use as the binding material; 5) At excess of CaO the degree of SO 2 collection is nearer to 100%.

AB - Sulfuric anhydride is one of the most voluminous technological emissions. The possibility of high-temperature SO 2 oxidations without catalyst in presence of calcium-bearing filling materials (CaO, Ca(OH) 2 and CaCO 3) with obtaining of binding material on the basis of waterless calcium sulfate is studied. Due to application package HSC-4 the thermodynamic analysis of the specified interactions is made and following conclusions are drawn: 1) Reactions are feasible in the all range of investigated temperatures (400-1000 °C); 2) The best results should be expected at use of CaO; 3) The heat of reaction does possible autogenous behavior of process. The researches have shown: 1) Practical possibility of the process; 2) SO 2 oxidation without the catalyst is feasible in presence of CaO, Ca(OH) 2 and CaCO 3; 3) The optimum temperature range is 600-800 °C; 4) The content of waterless calcium sulfate in a product reaches 48% that makes it possible to use as the binding material; 5) At excess of CaO the degree of SO 2 collection is nearer to 100%.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=62449234768

M3 - Conference contribution

SN - 978-087339726-1

SP - 327

EP - 330

BT - Rewas 2008: Global Symposium On Recycling, Waste Treatment And Clean Technology

A2 - Mishra, B.

PB - Wiley Periodicals

ER -

ID: 38950178