Screw turbine

{{short description|Water turbine which uses the principle of the Archimedean screw}}

A screw turbine (also known as an Archimedean turbine, Archimedes screw generator or ASG, or Archimedes screw turbine or AST) is a water turbine that converts the potential energy of water on an upstream level into work. This hydropower converter is driven by the weight of water, similar to water wheels, and can be considered as a quasi-static pressure machine. Archimedes screw generators operate in a wide range of flows (0.01 $m^3/s$ to 14.5 $m^3/s$ ) and heads (0.1 m to 10 m), including low heads and moderate flow rates that are not ideal for traditional turbines and not occupied by high performance technologies.

Archimedes' screw can be used to generate power if they are driven by flowing fluid instead of lifting fluid. Water transiting the screw from high to low elevation generates a torque on the helical plane surfaces, causing the screw to rotate. The Archimedes screw generator consists of a rotor in the shape of an Archimedean screw which rotates in a semicircular trough. Water flows into the screw and its weight presses down onto the blades of the turbine, which in turn forces the turbine to turn. Water flows freely off the end of the screw into the river. The upper end of the screw is connected to a generator through a gearbox. The Archimedes screw is theoretically a reversible hydraulic machine, and there are examples of single installations where screws can be used alternately as pumps and generators.

History

File:Turbina Archimedesa MEW Goryn.jpg

The first records of a water screw, or screw pump, dates back to Ancient Mesopotamia, a cuneiform inscription of Assyrian king Sennacherib (704–681 BC) describes casting water screws in bronze. This is consistent with classical author Strabo, who describes the Hanging Gardens as watered by screws.{{cite journal|last1=Dalley|first1=Stephanie|last2=Oleson|first2=John Peter|date=2003|title= Sennacherib, Archimedes, and the Water Screw: The Context of Invention in the Ancient World|pages=1–26|journal=Technology and Culture|volume=44|issue=1|url=https://muse.jhu.edu/article/40151/|doi=10.1353/tech.2003.0011|s2cid=110119248|url-access=subscription}}

The Archimedean screw is an ancient invention, attributed to Archimedes of Syracuse (287–212 BC.), and commonly used to raise water from a watercourse for irrigation purposes. In 1819 the French engineer Claude Louis Marie Henri Navier (1785–1836) suggested using the Archimedean screw as a type of water wheel. In 1916 William Moerscher applied for a U.S. patent on the hydrodynamic screw turbine.

Application

File:Cragside Archimedes' screw from top.jpg

The Archimedean screw turbine is applied on rivers with a relatively low head (from 0.1 m to 10 m) and on low flows (0.01 m³/s up to around 10 m³/s on one turbine). Due to the construction and slow movement of the blades of the turbine, the turbine is considered to be friendly to aquatic wildlife. It is often labelled as "fish friendly". The Archimedean turbine may be used in situations where there is a stipulation for the preservation and care of the environment and wildlife.

Design

An Archimedes Screw Turbine (AST) hydroelectricity powerplant can be considered as a system with three major components: a reservoir, a weir, and the AST (which is connected to the system by a control gate and trash rack). At most real AST locations, the incoming flow must be divided between the AST and a parallel weir. Typically, a minimum flow over the weir is mandated for the protection of the local environment. Other outlets as well as a fish ladder could be considered as the other components of this system. A comprehensive guide about the principles of designing Archimedes screw turbines and screw hydropower plants is available in "Archimedes Screw Turbines: A Sustainable Development Solution for Green and Renewable Energy Generation—A Review of Potential and Design Procedures".{{Cite journal |last1=YoosefDoost |first1=Arash |last2=Lubitz |first2=William David |date=2020-09-08 |title=Archimedes Screw Turbines: A Sustainable Development Solution for Green and Renewable Energy Generation—A Review of Potential and Design Procedures |journal=Sustainability |language=en |volume=12 |issue=18 |pages=7352 |doi=10.3390/su12187352 |doi-access=free |issn=2071-1050}}

= Flow rate =

To design Archimedes screw turbines and hydropower plants, it is essential to estimate the amount of water is passing through the screw turbine since the amount of power generated by an Archimedes screw turbine is proportional to the volume flow rate of water through it. The volume of water that enters an Archimedes screw turbine depends on the inlet water depth and the screw's rotation speed. To estimates the total flow rate passing through an Archimedes screw turbine for different rotation speeds (ω) and inlet water levels the following equation could be used:

$Q=\alpha Q_{Max} (A_E/A_{Max})^\beta (\omega/\omega_M)^\gamma$

Where $\alpha$ , $\beta$ and $\gamma$ are constants related to the screw properties. Preliminary investigations suggest that $\alpha= 1.242$ , $\beta= 1.311$ , and $\gamma= 0.822$ give reasonable predictions of $Q$ for a wide range of small to full-scale AST sizes.

Examples

; United Kingdom:

Woolston, Cheshire weir on the River Mersey 486 kW, Under construction
Devon, Totnes 320 kW, Commissioned December 2015
Romney, Berkshire, 270 kW, Installed to provide a renewable source of energy to Windsor Castle, Commissioned July 2013
Bealey’s Weir, Radcliffe, 100 kW, Commissioned May 2012
Mapledurham, River Thames, UK’s largest flow capacity (8 m³/s) single screw, 99 kW.
Buckfast, River Dart, screw turbine and fishpass, 84 kW
UK’s first community owned hydro scheme, and fishpass, 63 kW at New Mills.
UK’s first grid connected screw turbine, 50 kW at River Dart Country Park.
Bainbridge, community owned screw turbine, 37 kW
Tipton, River Otter, 30 kW
Rochdale, screw turbine and fishpass, 20 kW
Cragside, the birthplace of hydroelectricity, 12 kW
Tillydrone, Aberdeen Community Energy, 100 kW, UK's first urban micro-hydro
Morden Hall Park, River Wandle, south London, powering the attraction's visitor centre.{{cite news |last1=Tuffrey |first1=Laurie |title=Hydroelectric energy creation arrives in London |url=https://www.theguardian.com/environment/2012/jul/19/hydroelectric-turbine-energy-london |work=The Guardian |date=19 July 2012}}

; United States:

Hanover Pond on the Quinnipiac River in Meriden, Connecticut, 105 kW (or 920,000 kWh/year), grid connected, commissioned April, 2017; the first screw turbine installation in the US.

References

{{reflist|refs=

{{ cite patent | country = United States | inventor = William Moerscher | title = Water-power system | number = 1434138 | gdate = October 31, 1922 | url = http://www.google.com/patents/US1434138 }}

{{ cite web | url = https://planning.warrington.gov.uk/swiftlg/apas/run/WPHAPPDETAIL.DisplayUrl?theApnID=2018/32951 | title = Woolston {{!}} Planning Application | website = Warrington Borough Council | access-date = 2021-03-22 }}

{{ cite web | url = https://www.renfin.eu/news/new-projects-in-england/ | title = Woolston {{!}} Project Overview | website = renfin.eu | access-date = 2021-03-22 }}

{{ cite web | url = https://www.warrington-worldwide.co.uk/?s=woolston+weir+power | title = Woolston {{!}} Local News Items | website = Warrington Worldwide | access-date = 2021-03-22 }}

{{ cite web | url = http://www.mannpower-hydro.co.uk/project/totnes/ | title = Totnes {{!}} MannPower Consulting | website = www.mannpower-hydro.co.uk | access-date = 2016-08-05 }}

{{ cite web | url = http://www.mannpower-hydro.co.uk/project/romney/ | title = Romney {{!}} MannPower Consulting | website = www.mannpower-hydro.co.uk | access-date = 2016-08-05 }}

{{ cite web | url = http://www.mannpower-hydro.co.uk/project/bealeys-weir/ | title = Bealeys Weir {{!}} MannPower Consulting | website = www.mannpower-hydro.co.uk | access-date = 2016-08-05 }}

{{ cite web | url = http://www.westernrenew.co.uk/wre/case_studies | title = Hydro Power Case Studies, Micro-Hydro Case Studies - Western Renewable Energy | website = www.westernrenew.co.uk | access-date = 2016-08-05 }}

{{ cite web | url = https://www.nationaltrust.org.uk/features/hydropower-returns-to-cragside | title = Hydropower returns to Cragside | website = National Trust | access-date = 2016-08-09 }}

[http://www.myrecordjournal.com/news/meriden/meridennews/10261795-154/ancient-technology-in-meridens-hanover-pond-dam-begins-generating-electricity.html Andrew Ragall, Ancient technology in Meriden's Hannover Pond dam begins generating electricity, Meriden Record Journal, April 27, 2017]

[http://www.prnewswire.com/news-releases/new-england-hydropower-energizes-first-archimedes-screw-turbine-site-in-u-s-300446129.html New England Hydropower Energizes First Archimedes Screw Turbine in U.S., PR Newswire, April 27, 2017]

{{cite news| url=https://www.pressandjournal.co.uk/fp/news/environment/3649566/powering-up-how-a-community-cut-through-bureaucratic-red-tape-to-make-a-splash-with-the-uks-first-urban-micro-hyrdo/| title=Powering Up| author=Philippa Gerrard| publisher=Press and Journal| date=4 November 2016| accessdate=20 November 2023}}

}}

External links

[https://landustrie.nl/en/products/hydropower/hydropower-screws/ Landustrie- Information on one of the manufacturers]
[https://www.spaansbabcock.com/products/screw-turbine spaansbabcock.com/products/screw-turbine] Information on one of the manufacturers
{{in lang|pl}} [http://www.dobraenergia.info/ The first screw turbine in Poland]

Category:Water turbines

Category:Watermills