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Applications of piezo actuators2/18/2024 Energies 10(4):578ĭe Lima CR, Vatanabe SL, Choi A, Nakasone PH, Pires RF, Silva ECN (2009) A biomimetic piezoelectric pump: computational and experimental characterization. J Micromech Microeng 19(12):125016ĭavid A, Mathiesen BV, Averfalk H, Werner S, Lund H (2017) Heat roadmap europe: large-scale electric heat pumps in district heating systems. Lab Chip 18(14):1952–1996ĭau VT, Dinh TX, Sugiyama S (2009) A MEMS-based silicon micropump with intersecting channels and integrated hotwires. J Intell Mater Syst Struct 23(1):53–63Ĭonnacher W et al (2018) Micro/nano acoustofluidics: materials, phenomena, design, devices, and applications. J Microelectromech Syst 24(4):982–989Ĭhoi A, Vatanabe SL, de Lima CR, Silva ECN (2011) Computational and experimental characterization of a low-cost piezoelectric valveless diaphragm pump. J Dyn Syst Meas Contr 136(3):031025Ĭhen Y-C, Kang T-H, Ingram PN, Cheng Y-H, Yoon E (2015) Osmotically actuated micropumps and control valves for point-of-care applications. Sens Actuators A Phys 330:112820Ĭhangbin G, Zongxia J, Shuai W, Yaoxing S, Fanggang Z (2014) Active control of fluid pressure pulsation in hydraulic pipe system by bilateral-overflow of piezoelectric direct-drive slide valve. Sensors 19(6):1301īußmann AB, Grünerbel LM, Durasiewicz CP, Thalhofer TA, Wille A, Richter M (2021) Microdosing for drug delivery application-a review. SPIE, pp 73–84īao Q et al (2019) A novel PZT pump with built-in compliant structures. In: Smart structures and materials 2003: Industrial and commercial applications of smart structures technologies, vol 5054. Sens Actuators A Phys 162(2):172–176Īnderson EH, Bales GL, White EV (2003) Application of smart material-hydraulic actuators. Electronics 10(4):439Īl-Halhouli AT, Kilani MI, Büttgenbach S (2010) Development of a novel electromagnetic pump for biomedical applications. ![]() J Microelectromech Syst 27(1):86–94Īkpudo UE, Hur J-W (2021) A cost-efficient MFCC-based fault detection and isolation technology for electromagnetic pumps. Cytometry A 85A(6):537–547Īkin Yildirim Y, Toprak A, Tigli O (2018) Piezoelectric membrane actuators for micropump applications using PVDF-TrFE. Some substantial resources are provided for future researchers to explore their applications.Īkagi J, Zhu F, Hall CJ, Crosier KE, Crosier PS, Wlodkowic D (2014) Integrated chip-based physiometer for automated fish embryo toxicity biotests in pharmaceutical screening and ecotoxicology. The chief benefit of this paper is a broader understanding of the applications of piezoelectric pumps. Finally, conclusions are given and future prospects are considered. The detailed description of each application field gives an idea of the latest developments in the application of piezoelectric pumps. This paper focuses on piezoelectric pump applications in areas related to sensing control, heat dissipation cooling, aerospace, robotics, cars, chemical analysis, bioanalysis, MEMS (microelectromechanical control system), DMFC (direct methanol fuel cells), and PEMFC (proton exchange membrane fuel cells), etc. In recent decades, researchers have conducted a wide range of research into the application of piezoelectric pumps. The direction of development of piezoelectric pumps is the integration of transmission devices into microfluidic systems to meet the requirements of precise fluid transfer. Piezoelectric pumps are widely used in electronic instruments, industrial production, scientific applications, fuel supply and other fields.
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