This paper is a result of the Advanced Energy Economy (AEE) Grid Modernization Policy Forum on June 18th, 2013 in Boulder, Colorado. The purpose of the forum was to identify the advanced energy industry's state policy priorities for smart grid utilization and deployment. The intended audience for this paper is state regulators, legislators, governors' offices and other policy makers., "December 2013.", Description based on online resource; title from PDF caption; (viewed September 2015), Includes bibliographic reverences.
video file MPEG 303MB, Introduction -- Smart agriculture: delivering real-time intelligence -- Weather = water: thriving in the new normal -- From one horse to one gig: a multigenerational story -- Amber waves of innovation: consumer-inspired partnerships., Produced by Colorado State University, College of Agricultural Sciences; Colorado State University Extension and Colorado State University Office of Engagement., Online resource; title from title screen (viewed July 2020)
by R.W. Clark., Part I. Advantages of the silo R.W. Clark -- Part II. Pit silos Chas. I. Bray., "June 1919.", "Revised edition of Bulletin no. 107, series 1.", Cover title., Print version record.
"Preparation of this report has been financially supported by AEC (ERDA) Grant /I5594605 monitored by the Lawrence Livermore Laboratory.", "May 1975.", Includes bibliographical references.
An experimental study of techniques for modifying the surface shear stress, both mean and fluctuating, in turbulent boundary layers is reported. The surface shear along the test section of a 45.7 cm square wind tunnel, with a downstream expansion section, was determined by means of surface-hot-wire-heat-transfer-gauges. Turbulent boundary layers in both zero and adverse pressure gradients were evaluated., by V.A. Sandborn., "CER80-81-VAS46.", "April 1981.", Includes bibliographical references., This research was carried out under the Naval Sea Systems Command General Hydromechanics Research Program Subproject SR 023 01 01., Administered by the David W. Taylor Naval Ship Research and Development Center, contract N00014-80-C-0183., Print version record.
Response of the flow variables to external driving forces is non-linear for shear flows. For the turbulent boundary layer case, surface shear stress fluctuations of magnitude as great as the mean value are observed. For flow near the surface Prandtl's turbulent boundary layer approach of employing averaged Reynolds equation and a turbulence closure model is insufficient to account for surf ace shear fluctuations. A model which incorporates a discrete time dependent solution for the inner region of the turbulent boundary layer is proposed. The model requires stochastic averaging of the time dependent solution to account for the random aspect of the flow., by Ho-Chen Chien and V. A. Sandborn., "CER80-81-HCC-VAS 45.", "April 1981.", Includes bibliographical references., This research was carried out under the Naval Sea Systems Command General Hydromechanics Research Program Subproject SR 023 01 01., Administered by the David W. Taylor Naval Ship Research and Development Center, contract N00014-80-C-0183., Print version record.
"Published simultaneously as CSU Atmospheric Science Papers in English and in the Transactions of the Main Geophysical Observatory in Russian." -- Cover., Includes bibliographical references (p. [107]-109)., Description based on print version record.
Cover title., "August 1973.", The research reported in this paper was supported by the U.S. Atomic Energy Commission under contract AT(11-1)-1340., Includes bibliographic references (p. 10), Mode of access: World Wide Web.
