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RESEARCH AREAS and ACTIVITY DOMAINS
A. Sensors
1. Applications in environmental monitoring:
1.1. Semiconductor, electrochemical and polymeric sensors for detecting fuel gases, toxic gases
and volatile organic compounds;
1.2. Colorimetric sensors for the detection of heavy metals ions from wastewaters: Cu , Cd ,
2+
2+
Ni , Hg , Pb ;
2+
2+
2+
2. Monitoring climate, atmospheric and working conditions: sensors for relative humidity of type resistive
and capacitive polymeric, as well as of air temperature;
3. Measurement of dynamic viscosity in continuous regime with piezoelectric sensors;
4. Position, linear and angle sensors;
5. Resistance sensors of reinforced concrete structures;
6. Sensors with optical wires.
B. Actuators
1. Piezoceramic, magnetostrictive, electrostrictive and electromagnetic actuators, with applications in
aeronautics;
2. Non‑conventional micro‑motors and microgenerators, obtained on piezoelectric electromagnetic,
magnetostrictive principles and their combinations;
3. Actuators made with superconducting coils for applications in the field of electrical switching devices.
C. Devices of energy harvesting using residual energy sources from the environment, as well as energy storage.
D. Applications of magnetic nanofluids in electrical engineering: microactuators as a cooling agent and as part
of the magnetic circuits.
E. Applied electronics
1. Microelectronics for electronic conditioning of signals provided by sensitive elements of sensors;
2. Driver electronic for actuators and micromotors.
D02 Applied Superconductivity Laboratory – 2/3.2 LSA
Head of Laboratory: Dr. Phys. Ion DOBRIN
E-mail: ion.dobrin@icpe-ca.ro
Phone: (+40-21)346.72.31 / 613
Fax: (+40-21)346.82.99
Deputy Head of Laboratory: PhDs. Eng. Dan ENACHE
E-mail: dan.enache@icpe-ca.ro
Phone: (+40-21)346.72.31 / 612
Fax: (+40-21)346.82.99
RESEARCH AREAS and ACTIVITY DOMAINS
Research and development activities in the field of superconductivity and cryogenics applications in electrical
engineering:
development of innovative electrical devices to increase the energy efficiency by using LTS / HTS
superconductors and cryogenics;
development of rotative superconducting machines (electrical superconducting motors and
generators);
development of superconducting systems for generating the high magnetic fields with different
geometry (dipolar, quadripolar or sextupolar);
development of cryogenics systems with cooling agents (helium or liquid nitrogen) or by use of
closed loop cryorefrigerators (Gifford‑McMahon or Pulse‑Tube‑type);
measuring the physical properties (electric, thermic and magnetic) of materials in the range of
2 – 400 K and 0 – 9 T;
measuring the critical parameters for superconducting coils and materials.
2019 ANNUAL REPORT | PAGE 29
