Presentation is loading. Please wait.

Presentation is loading. Please wait.

Desulphurisation Hemant Pandit, Ranjan agrawal. DTU Chemical Engineering Technical University of Denmark The wet FGD process CaCO 3 (s) + SO 2 (g) + 2H.

Published byHorace Harrell Modified over 9 years ago

Similar presentations

Presentation on theme: "Desulphurisation Hemant Pandit, Ranjan agrawal. DTU Chemical Engineering Technical University of Denmark The wet FGD process CaCO 3 (s) + SO 2 (g) + 2H."— Presentation transcript:

1 Desulphurisation Hemant Pandit, Ranjan agrawal

2 DTU Chemical Engineering Technical University of Denmark The wet FGD process CaCO 3 (s) + SO 2 (g) + 2H 2 O + ½O 2 → CaSO 4 2H 2 O(s) + CO 2 Major reactions (Kiil, 1998) ● Absorption of SO 2 ● Oxidation of HSO 3 - to SO 4 2- ● Limestone dissolution ● Gypsum crystallisation Important parameters ● Desulphurisation degree ● Gypsum moisture content ● Gypsum impurity content (limestone etc.) CHEC Annual Day, 2009 01.10.2009 Courtesy of DONG Energy Wet Flue Gas Desulphurisation 1

3 DTU Chemical Engineering Technical University of Denmark Oxy-fuel combustion ● Substitution of fuel air with oxygen ● Flue gas recycle in order to control temperature/convective heat transfer ● Gas phase enriched in CO 2 & H 2 O ● Capture and compression of CO 2 Flue gas desulphurization ● Ensuring a clean product – i.e. transport and geological storage considerations ● Wet FGD before compression (traditional) ● As part of the compression (research stage) Courtesy of Vattenfall The oxy-fuel concept 2 CHEC Annual Day, 2009 01.10.2009

4 DTU Chemical Engineering Technical University of Denmark Fuel Processing

5 DTU Chemical Engineering Technical University of Denmark Fuel Processor

6 DTU Chemical Engineering Technical University of Denmark C + O 2 CO 2 C + H 2 O CO + H 2 C + CO 2 2CO CO + H 2 OCO 2 + H 2 CO + 3H 2 CH 4 +H 2 O Moving bed Fluidized bed Entrained bed BGL Shell Texaco KRW HT Winkler and many more Second generation Generic Types Gasification of solid fuels

7 DTU Chemical Engineering Technical University of Denmark Partial Oxidation C x H y + x/2 O 2 x CO + y/2 H 2 Advantages:  Any type of hydrocarbon  Direct Heat transfer Disadvantages:  Low H 2 production  Dilution of gas with N 2  Soot formation

8 DTU Chemical Engineering Technical University of Denmark Desulphurisation  Gas phase Desulphurisation ZnO + H 2 S ZnS (s) + H 2 O (g) 2 to 3 kg ZnO sufficient for one year Automobile operation  Liquid Fuel Desulphurisation Gasoline 30-40 ppm 1-2ppm Sulphur For high sulphur Fuels hydro treatment followed by gas phase Desulphurisation Adsorption Chemical reaction

9 DTU Chemical Engineering Technical University of Denmark Conclusions  Presently liquid fuels like gasoline & Diesel which contain high aromatic content and sulfur are not very suitable for on board applications.  Availability of Methanol & Ethanol for fuel uses are inadequate.  For use of natural gas economic and environmental benefits are to studied in detail.  A multi fuel Reformer needs to be developed (For fuels with small range of C/H ratio).  Thrust areas for R&D Development of reactors/separators (Membrane) Indigenous Catalyst development

Download ppt "Desulphurisation Hemant Pandit, Ranjan agrawal. DTU Chemical Engineering Technical University of Denmark The wet FGD process CaCO 3 (s) + SO 2 (g) + 2H."

Similar presentations

Introduction to Fischer Tropsch Synthesis

Introduction to Fischer Tropsch Synthesis
Coal Gasification Technology and Syngas Production

Coal Gasification Technology and Syngas Production
A laboratory study of Hg oxidation catalyzed by SCR catalysts Karin Madsen on 05.10.2010 at CHEC Annual Day Anker Degn Jensen Joakim Reimer Thøgersen Flemming.

A laboratory study of Hg oxidation catalyzed by SCR catalysts Karin Madsen on at CHEC Annual Day Anker Degn Jensen Joakim Reimer Thøgersen Flemming.
Challenges in Sustainable Hydrogen Production David Wails Low Carbon Research Group Johnson Matthey Technology Centre.

Challenges in Sustainable Hydrogen Production David Wails Low Carbon Research Group Johnson Matthey Technology Centre.
Integrated Gasification Combined Cycle (IGCC) IGCC is basically the combination of the gasification unit and the combined cycle. It has high efficiency.

Integrated Gasification Combined Cycle (IGCC) IGCC is basically the combination of the gasification unit and the combined cycle. It has high efficiency.
Biofuel Jeopardy! Waterford Union High School. Rules Each team sends one person per turn. They cannot get help from their team First to “buzz” in gets.

Biofuel Jeopardy! Waterford Union High School. Rules Each team sends one person per turn. They cannot get help from their team First to “buzz” in gets.
AN OVER VIEW OF FUEL PROCESSOR TECHNOLOGIES FOR FUEL CELL APPLICATIONS K.Venkateshwarlu, T.Krishnudu and K.B.S.Prasad Indian Institute of Chemical Technology.

AN OVER VIEW OF FUEL PROCESSOR TECHNOLOGIES FOR FUEL CELL APPLICATIONS K.Venkateshwarlu, T.Krishnudu and K.B.S.Prasad Indian Institute of Chemical Technology.
Development in TIPS RAS of novel advanced processes for conversion of gaseous feedstock and polymer wastes to value- added chemical products INOVACE 2013.

Development in TIPS RAS of novel advanced processes for conversion of gaseous feedstock and polymer wastes to value- added chemical products INOVACE 2013.
Study Of Fuel Cell By:- Sunit Kumar Gupta 10105104.

Study Of Fuel Cell By:- Sunit Kumar Gupta
FUEL CELL.

FUEL CELL.
1 Alternative Energy Sources Delivered to: Bill Pyke Hilbre Consulting Limited October 2012 Alternative Transport Fuels Hydrogen, Engine Developments &

1 Alternative Energy Sources Delivered to: Bill Pyke Hilbre Consulting Limited October 2012 Alternative Transport Fuels Hydrogen, Engine Developments &
CHEC Annual Day, 2009 Effect of experimental conditions on biomass gasification in an entrained-flow reactor Ke Qin Supervisors: Prof. Anker Degn Jensen.

CHEC Annual Day, 2009 Effect of experimental conditions on biomass gasification in an entrained-flow reactor Ke Qin Supervisors: Prof. Anker Degn Jensen.
Methanol Project Design a plant to make methanol from synthesis gas to supply a future market in direct methanol fuel cells.

Methanol Project Design a plant to make methanol from synthesis gas to supply a future market in direct methanol fuel cells.
Nitrogen Oxides (NO x ) Chapter 12 Page 147-168. NO x emissions include: Nitric oxide, NO, and Nitrogen dioxide, NO 2, are normally categorized as NO.

Nitrogen Oxides (NO x ) Chapter 12 Page NO x emissions include: Nitric oxide, NO, and Nitrogen dioxide, NO 2, are normally categorized as NO.
Sara Jones 24NOV08. Background  In most conventional combustion processes, air is used as the source of oxygen  Nitrogen is not necessary for combustion.

Sara Jones 24NOV08. Background  In most conventional combustion processes, air is used as the source of oxygen  Nitrogen is not necessary for combustion.
Fuels and Combustion Lec.8. Introduction Any source of heat energy is termed as fuel fuel means a substance composed of carbon and hydrogen (hydrocarbon).

Fuels and Combustion Lec.8. Introduction Any source of heat energy is termed as fuel fuel means a substance composed of carbon and hydrogen (hydrocarbon).
Energy (TKK-2129) Instructor: Rama Oktavian

Energy (TKK-2129) Instructor: Rama Oktavian
1 Environment Engineering I Dr. Amal Hudhud Dr. Abdel Fattah Hasan An-Najah National University Civil Engineering Department Air Pollution Chapter Eleven-

1 Environment Engineering I Dr. Amal Hudhud Dr. Abdel Fattah Hasan An-Najah National University Civil Engineering Department Air Pollution Chapter Eleven-
Stoichiometry of gases

Stoichiometry of gases
Institute of Chemical Engineering page 1 Achema 2012 Chemical Process Engineering Working group Gasification & Gas Cleaning Contact:

Institute of Chemical Engineering page 1 Achema 2012 Chemical Process Engineering Working group Gasification & Gas Cleaning Contact:

Similar presentations

Ads by Google