Sulfur dioxide removal from air by oxidation in a trickle bed reactor packed with activated carbon

Kuseyri, Işkın


Carbon dioxide removal in steam reforming : adsorption of CO2 onto hydrotalcite and activated soda
Fıçıcılar, Berker; Doğu, Timur; Department of Chemical Engineering (2004)
Conversion of natural gas and other light hydrocarbons via steam reforming is currently the major process for hydrogen production. However, conventional hydrogen production technologies are not cost effective and therefore, cost is the biggest impediment to use hydrogen in fuel cell applications. In order to optimize and overcome cost problems in hydrogen production, sorption and membrane enhanced reaction processes are the two novel technologies for in situ operation of reforming and removal of carbon diox...
Sulfur capture for fluidized-bed combustion of high-sulfur content lignites
Altindag, H; Gogebakan, Y; Selçuk, Nevin (2004-12-01)
Sulfur release and capture behavior of lignites with highly combustible sulfur-contents were investigated by extending a previously-developed comprehensive model to incorporate sulfur retention. The predictive performance of the model was tested by comparing the model predictions with on-line concentration measurements of O-2, CO2, CO and SO2. Favorable comparisons are obtained between the predicted and measured concentrations of gaseous species along the combustor. Results show that freeboard sulfur-captur...
Sulfur retention during the combustion of Beypazarı lignite briquetted with CaO.
Atamer, Bülent; Department of Chemical Engineering (1979)
Sulfuric acid leaching of Turkish chromite ores
Ayhan, Ebru; Geveci, Ahmet; Topkaya, Yavuz; Department of Metallurgical and Materials Engineering (2000)
Volatile Fatty Acid Production from Organic Fraction of Municipal Solid Waste Through Anaerobic Acidogenic Digestion
Dogan, Eylem; Demirer, Göksel Niyazi (2009-09-01)
There are numerous studies on two-phase anaerobic digestion of municipal solid waste (MSW) in the literature. Yet, in the majority of these studies, applied organic loading rates (OLR) were relatively low. This study differs from those in the literature in terms of high OLR application and focuses on the optimization of the acidification phase. Effect of high OLRs and pH values were investigated and optimum operational conditions for acidification were determined. Although conversion of particulate organics...
Citation Formats
I. Kuseyri, “Sulfur dioxide removal from air by oxidation in a trickle bed reactor packed with activated carbon,” Middle East Technical University, 1989.