Michell’s Liquidew Analyzer App

Helps Save Time & Money on Maintenance at the Extresol-1 Thermosolar Power Plant

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The Extresol-1 Thermosolar Power Plant in Extremadura, Spain | Image Credit: Cobra Instalaciones y Servicios, S.A. - ACS Cobra Energ??a

ACS Cobra Energ??a has installed a Liquidew moisture-in-liquid analyzer to help save time and money on maintenance at the Extresol-1 thermosolar power plant in Extremadura, Spain. (Note: A plant image view above showing people alongside the solar reflectors gives an idea of the size of the plant). The Liquidew analyzer monitors the levels of moisture in the heat transfer fluid, alerting operators when levels of moisture become too high and enabling them to act early to avoid damage to the system.

The Extremadura plant, which generates 50 Megawatts, covers 195 hectares and contains 156 mirror arrays, with a total length of tubing of 92 km.

Solar thermal power plants, with parabolic trough technology, capture the sun’s heat to drive traditional steam turbines, rather than producing electricity with photovoltaic cells. The heat is focused using mirrors and generates steam to drive the turbines via a tube filled with a special heat transfer liquid.

The heat transfer liquid is a mixture of organic liquids, and has a similar appearance and viscosity to water, but with very different characteristics. It boils at 300 ??C, making it ideal to cope with the high temperatures needed to drive the turbines. It also has a freezing temperature of 12 ??C, and it must be kept above this temperature at all times.

The heat transfer fluid may contain dissolved moisture which presents a problem at night, when the fluid cools, as the dissolved moisture may reach saturation point and liquid water will condense within the fluid, forming a liquid-liquid mixture.

If allowed to occur, such liquid water may evaporate as the fluid mixture heats up the next day to form pockets of high pressure steam ??? potentially causing physical damage to the plant. This risk can only be averted by continuous on-line monitoring of the dissolved moisture to enable effective drying processes within the heat transfer liquid loop.

Michell’s Liquidew moisture in liquid analyzer , typically mounted in an enclosure shown above, was chosen because of its wide measurement range ??? from 0.0001 ppmW to saturation levels ??? as well as its proven reliability.

The instrument uses a moisture sensor which is resilient in chemically aggressive media and reliable for continuous long-term operation in dense liquid phase sample flows.

The sensor is part of Michell’s calibration exchange programme, which ensures continued accurate measurements with the minimum of disruption for maintenance.

The supplied sampling system was designed to meet Extresol’s specifications by Michell’s dedicated systems engineering department.

Drawing on Michell’s 35 years experience of process moisture analysis, they produce both standard and customised sampling systems to cope with even the most demanding applications ??? such as the extremely high day time operating temperatures of the solar thermal power plant.

About Michell Instruments

Established in 1974, the Michell Instruments Group of Companies brings more than 35 years of research, design and technology to the field of instrumentation and control. The current product range includes dew point transmitters, chilled mirror hygrometers, relative humidity (RH) sensors, hydrocarbon dew point analyzers, moisture in liquid analyzers and oxygen analyzers. Michell Instruments has three manufacturing locations: Made, The Netherlands; Lyon, France and Ely, UK. The company has an extensive network of factory trained application engineers, subsidiaries and distributors stretching across 56 countries.

For further information, please contact

Michell Instruments Inc.
319 Newburyport Turnpike
Suite 207
Rowley, MA 01969 USA

Phone: +1 978- 484-0005
E-mail : info.us@michell.com
Web???? : www.michell.com/us