A study of the merits of multiplicative composite matching for turbulent airflow development over a two-dimensional hill

Paquin, André

11 1900

1 volume

Turbulent airflow

Experiments on a region of separated flow and on a wall jet

Davies, R. S.

January 1957

No description available.

620.1

Airflow, Flux

Effect of shear layer modelling on the simulated flow in a cavity

Vlachos, Bill Vaseleos

January 2000

No description available.

532

Airflow; Flow field

Helicopter flight in the airwake of non-aviation ships

Wakefield, Nigel Hugh

January 2000

No description available.

629.1323

Airflow dynamics; Landing

Characterisation of the internal aerodynamics of passenger compartments

Aghil, Salah Salem

January 2001

No description available.

629.133

Airflow; Cabins

The application of controlled recirculation to mine ventilation planning

Jones, T. M.

January 1987

No description available.

697

Airflow recirculation in mines

Flow in a forward swept centrifugal fan

Mealing, B. E.

January 1988

The original objective of this work, to improve the efficiency of a forward curved centrifugal fan, was redirected to the urgent solution of a serious impeller life problem arising under certain service conditions. Using a variety of experimental and theoretical techniques the flow pattern within the blade passage was analysed and the cause of the problem diagnosed. A new impeller has been designed and has been found to solve the service life problem while also yielding an improvement in efficiency. Because the project was carried out under the Total Technology programme the scope was widened to include consideration of the fan application in a suction roadsweeper : as a result of the wider technical and commercial investigation an opportunity has been identified for a new product offering benefits much greater than those sought within the scope of the original objective.

532

Roadsweeper airflow study

Enhanced modelling of indoor air flows, temperatures, pollutant emission and dispersion by nesting sub-zones within a multizone model

Ren, Zhengen

January 2002

No description available.

628

Room airflow rates

The effect of ridged roughness on momentum transfer

Husain, C. N.

January 1988

No description available.

629.1323

Airflow over rough surfaces

Establishing Total Airflow Requirements for Underground Metal/Non-metal Mines based on the Diesel Equipment Fleet

Stinnette, Joseph

24 May 2013

Traditionally, ventilation requirements for modern, mechanized underground mines have been based upon the power of the diesel equipment fleet, with a multiplier (determined from empirical data collected and compiled over a long period of time or required by regulations) being applied in order to determine the total airflow volume requirements of entire mines and/or individual sections or working areas. Often, in the absence of unusual geographic, climatic or geologic conditions that warranted special consideration, the airflow required for the dilution of diesel exhaust products would provide sufficient ventilation for the entire mine. However, recent studies regarding the health-effects of diesel exhaust, particularly the relationship between exposure to diesel emissions and cancer in humans, coupled with additional scrutiny on so called greenhouse gas emissions, have resulted changes to the regulations for engine and equipment manufacturers to provide cleaner burning and less polluting equipment; and are currently causing profound uncertainty in the mining industry. This influence is particularly felt in the case of ventilation engineers and those involved in long-term mine planning who have responsibility for designing the ventilation systems of both existing and future mining projects around the world. This thesis identifies the major parameters affecting airflow requirements for diesel-powered mining equipment and examines how each of them will change in scale and scope in the aftermath of regulatory changes mandating drastic reductions in the type and amount of diesel engine emissions. Culminating from this research, a new procedure for making total airflow determinations based on the underground diesel equipment fleet is proposed and tested with a practical case-study. Ultimately, the determination of the amount of airflow required for an underground mining operation or other sub-surface facility can depend on several factors, including the equipment fleet, ambient temperature, rock type, mining method and airway type (or use). Obtaining a universal, repeatable protocol for determining airflow quantities required for underground diesel equipment fleets is in the best interest of the industry as a whole, including ventilation practitioners, mine-planning engineers, mining financiers, executives, equipment manufacturers, and of course, the mine workers themselves, who perhaps have the most at stake of anyone involved in the equation. / Thesis (Master, Mining Engineering) -- Queen's University, 2013-05-23 22:33:11.36