Murray Lyons scite author profile

Archimedes screw generators (ASGs) are beginning to be widely adopted at low head hydro sites in Europe, due to high efficiency (greater than 80% in some installations), competitive costs and low environmental impact. Compared to other microhydro generation technologies, ASGs have greatest potential at low head sites (less than about 5 m). The performance of an Archimedes screw used as a generator depends on parameters including screw inner and outer diameter, slope, screw pitch and number of flights, and inlet and outlet conditions, as well as site head and flow. Despite the long history of the Archimedes screw, there is very little on the dynamics of these devices when used for power generation in the English literature. Laboratory tests of small Archimedes screws (approximately 1 W mechanical power) have been conducted to support the design and validation of ASG design tools. This paper reports experimental results examining the relationship between torque, rotation speed and power. The laboratory screw maintained reasonable efficiency over wide ranges of operating conditions, although distinct efficiency peaks were found to occur. The cause of changes in power output caused by varying the water level at the outlet of the screw were attributed primarily to the corresponding variation in head, and dynamic limiting of screw rotation speed causing corresponding limits in volume flow through the screw. Test results were qualitatively consistent with data from a prototype ASG installed by Greenbug Energy in southern Ontario, Canada, and recent data reported from European laboratory tests and commercial installations.

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Effects of Inclination Angle on Archimedes Screw Generator Power Production with Constant Head

Simmons

Dellinger

Lyons

et al. 2021

J. Hydraul. Eng.

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Experimental Investigation of Archimedes Screw Pump

et al. 2020

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Design of low-cost 4W & 6W MMIC high power amplifiers for Ka-band modules

Lyons¹,

Grondahl²,

Daoud³

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W O Ka-band power amplifier MMICs, 4W and 6W, with high power density and gain are presented. Each amplifier was designed using a 5-stage topology to demonstrate over 30dB of gain. The 4W design exhibited a peak saturated output power of 37.2dBm and a chip output power density of 532mWmm'. This is the highest recorded power density for a Ka-band power amplifier design to date.The high gain and power density of these designs make them ideal for low-cost Ka-band transmit systems.

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Murray Lyons

Performance Model of Archimedes Screw Hydro Turbines with Variable Fill Level

Archimedes Screws for Microhydro Power Generation

Effects of Inclination Angle on Archimedes Screw Generator Power Production with Constant Head

Experimental Investigation of Archimedes Screw Pump

Design of low-cost 4W & 6W MMIC high power amplifiers for Ka-band modules

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