Energy Technology Data Exchange (ETDEWEB)

Support for raising energy efficiency is reported for the following five areas during 1998-2001: 1. Fuel-based energy systems with the sub-areas: Sustainable production of biofuels, including ash recycling; Cogeneration; and Large scale heat production. 2. Transport with two sub-areas: Internal combustion engines; and Electric drive-lines. 3. Power production/Power technology with the sub-areas: Hydropower; Wind power; Power transmission and distribution; and Photovoltaic solar cells. 4. Industry with the sub-areas: Processes; and Support systems in industry. 5. Buildings with the sub-areas: Heating, cooling and climatic shields; and Components and support systems. In total, 1,800 M SEK (about 180 M USD) was contributed by the Energy Administration during this period. An overview of the projects is presented in this report.

Energy Technology Data Exchange (ETDEWEB)

In this report statistical data are presented on a national level on emissions to air in Sweden in 1995 of sulphur dioxide (SO{sub 2}), nitrogen oxides (NO{sub x}, counted as NO{sub 2}) and carbon dioxide (CO{sub 2}). Corresponding data for 1980 and 1994 are presented as a comparison. For CO{sub 2} data for 1990 and 1994 are presented as a comparison. The total amount of SO{sub 2}-emissions to air in 1995 were 94 000 tons, which means a decrease by 3 percent since 1994. The total amount of NO{sub x}-emissions to air were 362 000 tons, a 3 percent decrease since 1993. The total amount of CO{sub 2}-emissions to air were 63 200 000 tons, an increase by 7 percent compared with 1990. Differentiated data are given for various sources of emissions, i.e. combustion of fuels, industrial processes and mobile sources. Further data are presented on emission of SO{sub 2} and NO{sub x} from combustion, separately for electricity and heat production. The total amount of SO{sub 2} and NO{sub x} ...

Energy Technology Data Exchange (ETDEWEB)

The aim with this project sponsored by Energimyndigheten is to develop a method for calculations of grate boilers fueled by bark. This report describes this project, 'Evaluation Method for Grate Combustion' (EMGC). CFD codes is an engineering tool applicable in the area of the over-grate section called the furnace. This part of the boiler is easy to model for an experienced CFD code user and the results are usually quite satisfactory for evaluating the combustion process in general. Various gas phases reactions and related combustion processes over the burning bed can be simulated including air staging, fuel staging and SNCR. However the simulation needs information of amount and properties of the burning bed products, entering the furnace. The simulation of the in-furnace processes without this information is often just a numerical speculation. A predictive mathematical model based on physical and chemical data for the grate and fuel bed would solve this problem. ...