Molinas, Marta 1968-
Maria Marta Molinas Cabrera forsker
Molinas, Marta
VIAF ID: 221916558 ( Personal )
Permalink: http://viaf.org/viaf/221916558
Preferred Forms
- 100 0 _ ‡a Maria Marta Molinas Cabrera ‡c forsker
- 100 1 _ ‡a Molinas, Marta
-
- 100 1 _ ‡a Molinas, Marta ‡d 1968-
-
4xx's: Alternate Name Forms (6)
Works
Title | Sources |
---|---|
Analysis of power extraction from irregular waves by all-electric power take off | |
Cable based and wireless charging systems for electric vehicles, 2021: | |
Cluster interconnection of offshore wind farms using direct AC high frequency links | |
Constant power load characteristic's influence on the low-frequency interaction | |
Constant power loads in AC distribution systems : an investigation of stability | |
Control design and experimental verification of a series compensated 50 kW permanent magnet wind power generator | |
Direct AC/AC power converter for wind power application | |
Double input AC/DC nine-switch converter for multiple-generator drivetrain configuration in wind turbines | |
Effects and mitigation of post-fault commutation failures in line-commutated HVDC transmission system | |
Electric systems for pumped storage plants : technology evaluation | |
Electrical conversion system for offshore wind turbines based on high frequency AS link Alejandro Garcés Ruiz, Marta Molinas | |
Fornybar energi | |
Impact of control strategies on the rating of electric poewer take off for wave energy conversion | |
Impact of PWM switching on modeling of low frequency power oscillation in electrical rail vehicle | |
Improved grid interface of induction generators for renewable energy by use of STATCOM | |
Integration of wind power sources : a European perspective | |
Loss and rating considerations of a wind energy conversion system with reactive compensation by magnetic energy recovery switch (MERS) | |
Low voltage ride through of wind farms with cage generators : STATCOM versus SVC | |
A model-based controller in rotating reference frame for Hybrid HVDC | |
Multi-terminal VSC-HVDC system for integration of offshore wind farms and green electrification of platforms in the North Sea | |
New converter topologies for offshore wind farms : state of the research | |
Optimal use of power electronic interfaces for loads in distributed systems | |
Power collection and integration on the electric grid from offshore wind parks | |
Power collection array for improved wave farm output based on reduced matrix converters | |
Power electronic loads as providers of reactive power ancillary service to the grid : analytical and experimental study | |
Power electronics as grid interface for actively controlled wave energy | |
Power smoothing by aggregation of wave energy converters for minimizing electrical energy storage requirements | |
Reactive power compensation using an indirectly space vector-modulated matrix converter | |
Reduced matrix converter operated as current source for off-shore wind farms | |
Review of electrical machine in downhole applications and the advantages | |
Ride-through enhancement of line-commutated HVDC link for large offshore wind parks | |
A series injection strategy for reactive power compensation of line commutated HVDC for offshore wind power | |
A simple method for analytical evaluation of LVRT in wind energy for induction generators with STATCOM or SVC | |
Simplified models of a single-phase power electronic inverter for railway power system stability analysis-development and evaluation | |
STATCOM-based indirect torque control of induction machines during voltage recovery after grid faults | |
Superconducting magnetic energy storage (SMES) in power systems with renewable energy sources | |
Torque transient alleviation in fixed speed wind generators by indirect Torque Control with STATCOM | |
Tuning of control loops for grid connected voltage source converters | |
Understanding of tuning techniques ot converter controllers for VSC-HVDC | |
Wave-to-wave buoys control for improved power extraction under electro-mechanical constraints | |
Wind energy conversion systems : facing the challenges of offshore grids |