A piezoelectric microvalve for cryogenic applications

Park, Jong; Taylor, Ryan P.; Evans, Allan T.; Brosten, Tyler R.; Nellis, Gregory; Klein, S.A.; Feller, J. R.; Salerno, Louis J.; Gianchandani, Yogesh B.

doi:10.1088/0960-1317/18/1/015023

Cited by 34 publications

(28 citation statements)

References 28 publications

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“…The fabrication process is a variant of the process previously used to create flexure suspended microvalves [20]. Steps have been added to the process to create the embedded sensors, and other steps have been altered to increase yield and decrease process complexity.…”

Section: Device Fabricationmentioning

confidence: 99%

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A Microvalve With Integrated Sensors and Customizable Normal State for Low-Temperature Operation

Park

Evans

Rasmussen

et al. 2009

J. Microelectromech. Syst.

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This paper reports on design, fabrication, and testing of a piezoelectrically actuated microvalve with integrated sensors for flow modulation at low temperatures. One envisioned application is to control the flow of a cryogen for distributed cooling with a high degree of temperature stability and a small thermal gradient. The valve consists of a micromachined die fabricated from a silicon-on-insulator wafer, a glass wafer, a commercially available piezoelectric stack actuator, and Macor ceramic encapsulation that has overall dimensions of 1.5 × 1.5 × 1.1 cm 3 . A piezoresistive pressure sensor and a thin-film Pt resistance temperature detector are integrated on the silicon die. The assembly process allows the implementation of normally open, partially open, and normally closed valves. At room temperature, gas flow modulation from 200 to 0 mL/min is achieved from 0-to 40-V actuation. Flow modulation at various temperatures from room temperature to 205 K is also reported. The pressure sensor has sensitivity of 356 ppm/kPa at room temperature, with temperature coefficient of sensitivity of −6507 ppm/K. The temperature sensor has sensitivity of 0.29%/K. The valve and the sensors are tested across a wide range of temperatures, and the effect of temperature on performance is discussed.[ 2008-0253]Index Terms-Cooling systems, cryogenic, microelectromechanical systems (MEMS), piezoelectric, piezoresistive pressure sensor, resistance temperature detector (RTD).

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Section: Device Fabricationmentioning

confidence: 99%

“…For this paper, piezoelectric actuation is used, to allow proportional flow control, to generate high force, and to minimize the power consumption. Piezoelectric microvalves without integrated sensors have been developed for space applications [18], [19] and in our previous work, they have been shown to work in a cryogenic environment [20].…”

mentioning

confidence: 99%

A Microvalve With Integrated Sensors and Customizable Normal State for Low-Temperature Operation

Park

Evans

Rasmussen

et al. 2009

J. Microelectromech. Syst.

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“…The SMA-wire-actuated microvalve also offers the lowest power consumption with respect to existing high-flow microvalves, and is only outperformed by PZT microvalves, which however provide an order of magnitude lower flow rate per footprint. The SMA wire actuator valve has more than one order of magnitude lower power consumption than the gate valves with in-plane actuation [9,10] and has two [4] 6 .3 × 6.6 0% 0.8 W n/a n/a Park et al (seat valve, PZT) [5] 1 orders of magnitude lower voltage than the PZT microvalve [5]. The main drawback of the SMA wire valve compared to the other valves is the high relative leakage.…”

Section: Comparison To Previous Workmentioning

confidence: 99%

A low-power high-flow shape memory alloy wire gas microvalve

Gradin¹,

Clausi²,

Braun³

et al. 2012

J. Micromech. Microeng.

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A low-power high-flow shape memory alloy wire gas microvalve. Micromechanics and Microengineering,22( Journal of AbstractIn this paper the use of shape memory alloy (SMA) wire actuators for high gas flow control is investigated. A theoretical model for effective gas flow control is presented and gate microvalve prototypes are fabricated. The SMA wire actuator demonstrates the robust flow control of more than 1600 sccm at a pressure drop of 200 kPa. The valve can be successfully switched at over 10 Hz and at an actuation power of 90 mW. Compared to the current state-of-the-art high-flow microvalves, the proposed solution benefits from a low-voltage actuator with low overall power consumption. This paper demonstrate that SMA wire actuators are well suited for high-pressurehigh-flow applications.

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“…Only basic calculations have been performed to assess its performance-the in depth analysis and refinement of this design will be the subject of future work. The use of cryogenic propellants has not been taken into account since few data exist relative to the capability of PZT to work at cryogenic temperatures even though work by Park et al [24] has demonstrated a PZT actuated microvalve that operates down to 40 K.…”

Section: Active Injection-a Design Ideamentioning

confidence: 99%

A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines

Glynne‐Jones¹,

Coletti²,

White³

et al. 2010

Acta Astronautica

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a b s t r a c tControl over drop size distributions, injection rates, and geometrical distribution of fuel and oxidizer sprays in bi-propellant rocket engines has the potential to produce more efficient, more stable, less polluting rocket engines. This control also offers the potential of an engine that can be throttled, working efficiently over a wide range of output thrusts. Inkjet printing technologies, MEMS fuel atomizers, and piezoelectric injectors similar in concept to those used in diesel engines are considered for their potential to yield a new, more active injection scheme for a rocket engine. Inkjets are found to be unable to pump at sufficient pressures, and have possibly dangerous failure modes. Active injection is found to be feasible if high pressure drop along the injector plate is used. A conceptual design is presented and its basic behavior assessed.

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A piezoelectric microvalve for cryogenic applications

Cited by 34 publications

References 28 publications

A Microvalve With Integrated Sensors and Customizable Normal State for Low-Temperature Operation

A Microvalve With Integrated Sensors and Customizable Normal State for Low-Temperature Operation

A low-power high-flow shape memory alloy wire gas microvalve

A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines

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