ASME FEATURE Statoil, Total E&P Norway, Shell Technology Norway, Petrobras and the Research Council of Norway (203310/S60) for its support. ~
14. Selander, W. N., 1978, “Explicit Formulas for the Computation of Friction Factors in Turbulent Pipe Flow,” No. AECL-6354, Chalk River Nuclear Laboratories, Chalk River, Ontario CANADA. 15. Martin, H., 1996, “A theoretical approach to predict the performance of chevron-type plate heat exchangers,” Chemical Engineering and Processing, 35(4), pp. 301-310. 16. Han, D.-H., Lee, K.-J., and Kim,Y.-H., 2003, “The Characteristics of Condensation in Brazed Plate Heat Exchangers with Different Chevron Angles,” J. Korean Phys. Soc, 43(1), pp. 66-73.
References 3. International Energy Agency, 2013, “World Energy Outlook 2013.” 4. Vanner, R., 2005, “Energy Use in Offshore Oil and Gas Production: Trends and Drivers from 1975 to 2025,” Policy Studies Institute (PSI), London, United Kingdom. 5. Kloster, P., “Energy Optimization on Offshore Installations with Emphasis on Offshore Combined Cycle Plants,” Proc. Offshore Europe Oil and Gas Exhibition and Conference. 6. Walnum, H. T., Nekså, P., Nord, L. O., and Andresen, T., 2013, “Modelling and simulation of CO2 (carbon dioxide) bottoming cycles for offshore oil and gas installations at design and off design conditions,” Energy 59, pp. 513-520. Zeeco’s 35-year history of combustion and 7. Johnson, G. A., McDowell, M. W., environmental successes makes us the O’Connor, G. M., Sonwane, C. breath of fresh air you need to convert G., and Subbaraman, G., 2012, power plants from coal-fired to natural “Supercritical CO2 cycle development at gas, or add low or ultra-low NOx gas-fired Pratt & Whitney Rocketdyne,” ASME capability to meet the latest emissions and Turbo Expo, ASME, Copenhagen, efficiency targets. In a combined cycle facility, Denmark. ZEECO® low-NOx duct burners also assist in 8. Kimball, K. J., and Clementoni, E. meeting clean-air standards. M., 2012, “Supercritical carbon dioxide brayton power cycle development It’s time for a fresh look at the company and overview,” ASME Turbo Expo, ASME, technology that will keep power and steam Copenhagen, Denmark. generating clean energy for years to come. 9. Thermoflow, 2011, “GT MASTER 21.0.” Global experience. 10. 1993, “SLATEC - Common Local expertise. Mathematical Library,” Netlib Repository, U. T. Computer Science Dept, ZEECO Low NOx Duct Burner and O. R. N. Laboratory, eds. 11. Skaugen, G., Kolsaker, K., Walnum, H. T., and Wilhelmsen, Ø., 2013, “A Flexible and Robust Modelling Framework for Multi-Stream Heat ® Exchangers,” Computers & Chemical Engineering, 49, pp. 95-104. 12. Næss, E., 2007, “An Experimental Study of Heat Transfer and Pressure Drop in Serrated-Fin Tube Bundles and The ZEECO GB Low NOx power burner fires a variety of gas or Experience the Power of Zeeco. Investigation of Particulate Fouling in liquid fuels and supports multi-fuel applications without major combustion control or burner management system modifications. Waste Heat Recovery Heat Exchangers,” Dr.Ing, NTNU, Trondheim, Norway. 13. Gnielinski, V., 1976, “New Equations Zeeco, Inc. Boiler Burners • Duct Burners 22151 E 91st St. for Heat and Mass Transfer in Turbulent Broken Arrow, OK 74014 USA Burner Management • Combustion Control Pipe and Channel Flow,” 16(April), pp. +1 918 258 8551 Ignition Systems • Turnkey Solutions firstname.lastname@example.org 359-368.
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APRIL 2015 | ASME Power Division Special Section
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Heat Exchangers – Retrofit/Rebuild/Equipment Upgrade – Bearings – Turbine Tech: Steam – ASME: Combined-Cycle Plants