Nome |
# |
Solid oxide fuel cell hybrid system: A detailed review of an environmentally clean and efficient source of energy, file e268c4c9-7efd-a6b7-e053-3a05fe0adea1
|
758
|
Vibrational analysis for surge precursor definition in gas turbines, file e268c4ca-d943-a6b7-e053-3a05fe0adea1
|
250
|
Experimental dynamic analysis on a T100 microturbine connected with different volume sizes, file e268c4c8-064c-a6b7-e053-3a05fe0adea1
|
244
|
Advanced Control System for Grid-Connected SOFC Hybrid Plants: Experimental Verification in Cyber-Physical Mode, file e268c4cb-81c4-a6b7-e053-3a05fe0adea1
|
187
|
Validated ejector model for hybrid system applications, file e268c4c9-1de1-a6b7-e053-3a05fe0adea1
|
171
|
Real-time state of charge estimation in thermal storage vessels applied to a smart polygeneration grid, file e268c4c9-1ceb-a6b7-e053-3a05fe0adea1
|
168
|
Advanced control approach for hybrid systems based on solid oxide fuel cells, file e268c4cb-a0eb-a6b7-e053-3a05fe0adea1
|
159
|
Surge prevention for gas turbines connected with large volume size: Experimental demonstration with a microturbine, file e268c4c9-4a8c-a6b7-e053-3a05fe0adea1
|
158
|
Test Rig for Physical Emulation of a 0.5 MW Pressurized SOFC Hybrid System, file e268c4c7-5977-a6b7-e053-3a05fe0adea1
|
143
|
Hardware-In-the-Loop operations with an emulator rig for SOFC hybrid systems, file e268c4c7-fdbb-a6b7-e053-3a05fe0adea1
|
128
|
Fuel flexibility for a turbocharged SOFC system, file e268c4c9-fead-a6b7-e053-3a05fe0adea1
|
119
|
Test Rig for Emulation of Turbocharged SOFC Plants, file e268c4ca-d46e-a6b7-e053-3a05fe0adea1
|
93
|
Surge prevention in gas turbines: An overview over historical solutions and perspectives about the future, file e268c4ca-d473-a6b7-e053-3a05fe0adea1
|
91
|
Surge Precursors from Compressor Vibro-Acoustic Analysis, file e268c4ca-de1a-a6b7-e053-3a05fe0adea1
|
84
|
Hydrogen production system from photovoltaic panels: experimental characterization and size optimization, file e268c4cb-a2a6-a6b7-e053-3a05fe0adea1
|
81
|
Microturbine-Based Test Rig for Emulation of SOFC Hybrid Systems, file e268c4ca-8fe7-a6b7-e053-3a05fe0adea1
|
80
|
Dynamic Effect of Cold-Air Bypass Valve for Compressor Surge Recovery and Prevention in Fuel Cell Gas Turbine Hybrid Systems, file e268c4ca-fde7-a6b7-e053-3a05fe0adea1
|
70
|
Validated model of thermochemical energy storage based on cobalt oxides, file e268c4ca-8730-a6b7-e053-3a05fe0adea1
|
67
|
Numerical Investigation of Bladeless Compressor on Different Disk Spaces and Diffuser Configurations, file 382acff3-79ec-480a-8fd3-35360bd989dc
|
59
|
Transient Analysis of a Micro Gas Turbine With Fuel Composition Change, file 9b461cc6-53c4-4a3a-af41-a6e581afebaf
|
41
|
Turbocharged Solid Oxide Fuel Cell System: Design and Emulation, file e268c4c8-7c00-a6b7-e053-3a05fe0adea1
|
29
|
Generic Real-Time Modeling of Solid Oxide Fuel Cell Hybrid Systems, file e268c4c5-ff91-a6b7-e053-3a05fe0adea1
|
24
|
Pressurized SOFC hybrid systems: control system study and experimental verification, file e268c4c7-5a57-a6b7-e053-3a05fe0adea1
|
15
|
Cathode–anode side interaction in SOFC hybrid systems, file e268c4c6-1652-a6b7-e053-3a05fe0adea1
|
14
|
Design and Testing of Ejectors for High Temperature Fuel Cell Hybrid Systems, file e268c4c7-522c-a6b7-e053-3a05fe0adea1
|
13
|
Experimental Dynamic Analysis on a T100 Microturbine Connected With Different Volume Sizes, file e268c4c8-08cd-a6b7-e053-3a05fe0adea1
|
13
|
A Micro Gas Turbine Based Test Rig for Educational Purposes, file e268c4c6-09e2-a6b7-e053-3a05fe0adea1
|
12
|
Performance Investigation of a Bladeless Air Compressor, file 67c5aa50-ba79-4ad0-9b65-dd2844c1d80a
|
11
|
Numerical Investigation of Bladeless Compressor on Different Disk Spaces and Diffuser Configurations, file 7108dd98-d193-4407-a1eb-5e2520b07fc0
|
11
|
Emulation of Hybrid System Start-up and Shutdown Phases With a Micro Gas Turbine Based Test Rig, file e268c4c6-0456-a6b7-e053-3a05fe0adea1
|
11
|
Modeling of Combined SOFC and Turbine Power Systems, file e268c4c6-0e7f-a6b7-e053-3a05fe0adea1
|
11
|
Ejector Model for High Temperature Fuel Cell Hybrid Systems: Experimental Validation at Steady-State and Dynamic Conditions, file e268c4c5-f2c3-a6b7-e053-3a05fe0adea1
|
10
|
Hybrid system test rig: Chemical composition emulation with steam injection, file e268c4c7-5102-a6b7-e053-3a05fe0adea1
|
10
|
Hybrid System Test Rig: Start-up and Shutdown Physical Emulation, file e268c4c5-f5ce-a6b7-e053-3a05fe0adea1
|
9
|
Influence of the anodic recirculation transient behaviour on the SOFC hybrid system performance, file e268c4c5-fe09-a6b7-e053-3a05fe0adea1
|
9
|
Hybrid Simulation Facility Based on Commercial 100 kWe Micro Gas Turbine, file e268c4c6-0daa-a6b7-e053-3a05fe0adea1
|
9
|
Recuperator dynamic performance: Experimental investigation with a microgas turbine test rig, file e268c4c6-1505-a6b7-e053-3a05fe0adea1
|
9
|
Transient Simulations of a T100 Micro Gas Turbine Converted into a Micro Humid Air Turbine, file e268c4c6-479d-a6b7-e053-3a05fe0adea1
|
9
|
Carnot cycle in practice: compensating inefficiencies of ORC expanders through thermal regeneration, file e268c4cd-feeb-a6b7-e053-3a05fe0adea1
|
9
|
Operation extension in gas turbine-based advanced cycles with a surge prevention tool, file 0f9dffb5-8048-414b-a1d1-89c186676e83
|
8
|
Micro gas turbine recuperator: steady-state and transient experimental investigation, file e268c4c5-fd63-a6b7-e053-3a05fe0adea1
|
8
|
Plant Management Tools Tested with a Small-Scale Distributed Generation Laboratory, file e268c4c6-1ce2-a6b7-e053-3a05fe0adea1
|
8
|
Real-time tool for management of smart polygeneration grids including thermal energy storage, file e268c4c6-dea8-a6b7-e053-3a05fe0adea1
|
8
|
MGT/HTFC Hybrid System Emulator Test Rig: Experimental Investigation on the Anodic Recirculation System, file e268c4c7-48f9-a6b7-e053-3a05fe0adea1
|
8
|
Emulator Rig for SOFC Hybrid Systems: Temperature and Power Control with a Real-Time Software, file e268c4c7-5020-a6b7-e053-3a05fe0adea1
|
8
|
Multi-purpose model of SOFC hybrid systems, file e268c4c7-59b2-a6b7-e053-3a05fe0adea1
|
8
|
Emergency shutdown management in fuel cell gas turbine hybrid systems, file e268c4c7-5a33-a6b7-e053-3a05fe0adea1
|
8
|
Physical Simulator of Start-up for Hybrid System Cathode Side, file e268c4c7-5e32-a6b7-e053-3a05fe0adea1
|
8
|
Early start-up of solid oxide fuel cell hybrid systems with ejector cathodic recirculation: experimental results and model verification, file e268c4c5-f50d-a6b7-e053-3a05fe0adea1
|
7
|
Control System for Solid Oxide Fuel Cell Hybrid Systems, file e268c4c5-f81a-a6b7-e053-3a05fe0adea1
|
7
|
Experimental Validation of an Unsteady Ejector Model for Hybrid Systems, file e268c4c6-007e-a6b7-e053-3a05fe0adea1
|
7
|
Micro gas turbine based test rig for hybrid system emulation, file e268c4c6-03ce-a6b7-e053-3a05fe0adea1
|
7
|
Real-Time Hardware-in-the-Loop Tool for a Fuel Cell Hybrid System Emulator Test Rig, file e268c4c6-1351-a6b7-e053-3a05fe0adea1
|
7
|
SOFC/MGT Coupling: Different Options With Standard Boosters, file e268c4c6-1bae-a6b7-e053-3a05fe0adea1
|
7
|
Re-Compression Model for SOFC Hybrid Systems: Start-up and Shutdown Test for an Emulator Rig, file e268c4c7-4dbc-a6b7-e053-3a05fe0adea1
|
7
|
Performance monitoring of gas turbine components: a real case study using a micro gas turbine test rig, file e268c4c7-5735-a6b7-e053-3a05fe0adea1
|
7
|
Research and Educational Opportunities in Hardware-in-the-Loop Simulation of Advanced Power Systems: An International Perspective, file e268c4c7-5b65-a6b7-e053-3a05fe0adea1
|
7
|
Compressor Surge Precursors for a Turbocharger Coupled to a Pressure Vessel, file 1a78492e-50aa-4e93-97da-023f028a3a27
|
6
|
Early surge detection on a turbocharger used to pressurize a SOFC plant emulator, file 55449fe5-83ed-42e5-8120-1c0e9c1006c6
|
6
|
A Micro Gas Turbine Based Test Rig for Educational Purposes, file e268c4c5-f5cd-a6b7-e053-3a05fe0adea1
|
6
|
Demonstration of Simultaneous Temperature and Power Control in a Simulation Facility for a SOFC Hybrid System, file e268c4c6-09b4-a6b7-e053-3a05fe0adea1
|
6
|
Transient Analysis of Solid Oxide Fuel Cell Hybrids. Part B: Anode Recirculation Model, file e268c4c6-0b35-a6b7-e053-3a05fe0adea1
|
6
|
Pressurized SOFC Hybrid Systems: Control System Study and Experimental Verification, file e268c4c7-49a6-a6b7-e053-3a05fe0adea1
|
6
|
Compressor Surge Precursors for a Turbocharger Coupled to a Pressure Vessel, file 05f17c01-fe6e-428b-ba87-260a7bf5f84a
|
5
|
Compressed air energy storage with T100 microturbines: Dynamic analysis and operational constraints, file c651cd72-52f2-4e8b-906b-f8e215c8d1e0
|
5
|
Transient Analysis of Solid Oxide Fuel Cell Hybrids. Part C: Whole-Cycle Model, file e268c4c6-0b36-a6b7-e053-3a05fe0adea1
|
5
|
Solid oxide fuel cell hybrid system: Control strategy for stand-alone configurations, file e268c4c6-0da9-a6b7-e053-3a05fe0adea1
|
5
|
State of charge estimation of thermal storages for distributed generation systems, file e268c4c6-160d-a6b7-e053-3a05fe0adea1
|
5
|
Test Rig for Hybrid System Emulation: New Real-Time Transient Model Validated in a Wide Operative Range, file e268c4c6-2c7f-a6b7-e053-3a05fe0adea1
|
5
|
State of charge estimation of thermal storages for distributed generation systems, file e268c4c6-4e46-a6b7-e053-3a05fe0adea1
|
5
|
A Degradation Diagnosis Method for Gas Turbine—Fuel Cell Hybrid Systems Using Bayesian Networks, file e268c4cd-abdd-a6b7-e053-3a05fe0adea1
|
5
|
Incipient Surge Detection in Large Volume Energy Systems Based on Wigner–Ville Distribution Evaluated on Vibration Signals, file e268c4cd-c935-a6b7-e053-3a05fe0adea1
|
5
|
Energy Management System for Smart Grids: Tests in Cyber-Physical Mode, file 0a800661-f65f-424b-8dea-e93f17933380
|
4
|
Energy management and load profile optimisation of 10 kWh BESS integrated into a Smart Polygeneration Grid subnetwork, file 31d74b42-3e9a-4b86-8490-e6cb91c7a17f
|
4
|
Energy Management System for Smart Grids Including Renewable Sources and Industrial Symbiosis, file e0212c70-94f2-497a-b14d-be2608b4a867
|
4
|
Experimental Investigation of the Dynamic Performance of a Micro Gas Turbine Recuperator Including Innovative Cycle Configurations, file e268c4c6-1f26-a6b7-e053-3a05fe0adea1
|
4
|
Real-time management solutions for a smart polygeneration microgrid, file e268c4c6-b61a-a6b7-e053-3a05fe0adea1
|
4
|
Hydrogen production system from photovoltaic panels: experimental characterization and size optimization, file e268c4c7-08b5-a6b7-e053-3a05fe0adea1
|
4
|
Re-Compression System for SOFC Hybrid Plants: Tests With an Emulator Rig, file e268c4c7-4f5c-a6b7-e053-3a05fe0adea1
|
4
|
Sustainable district development: a case of thermoeconomic optimization of an energy hub, file e268c4c7-5452-a6b7-e053-3a05fe0adea1
|
4
|
MGT/HTFC Hybrid System Emulator Test Rig: Experimental Investigation on the Anodic Recirculation System, file e268c4c7-606d-a6b7-e053-3a05fe0adea1
|
4
|
Advanced control approach for hybrid systems based on solid oxide fuel cells, file e268c4cb-a0ec-a6b7-e053-3a05fe0adea1
|
4
|
Acoustic signature analysis of a bladeless blower, file 2ceb83dc-0db0-414f-909f-2a9bd8cefb25
|
3
|
Vibro-Acoustic Responses and Pressure Signal Analysis for Early Surge Detection in a Turbocharger Compressor, file 7b326599-925c-4b7a-a4ee-fbc950201853
|
3
|
Early surge detection in a mGT plant coupled with large volumes, file 8001091a-4a00-49b2-9543-1da0c1a863c2
|
3
|
Cost Energy Consumption Optimization Through Scheduling of Energy Storage System, file b3d1f626-9dba-46a8-8b6e-74f629026b40
|
3
|
null, file bb62d997-b362-41a9-9d57-1981f1824d81
|
3
|
Turbocharged SOFC System: Emulation and Control in Cyber-Physical Mode, file cb341049-1f55-44b1-bff2-ba31e87f4459
|
3
|
Hybrid System Test Rig: Chemical Composition Emulation With Steam Injection, file e268c4c6-0683-a6b7-e053-3a05fe0adea1
|
3
|
Smart Polygeneration Grid: a New Experimental Facility, file e268c4c6-09b6-a6b7-e053-3a05fe0adea1
|
3
|
Flexible Micro Gas Turbine Rig for Tests on Advanced Energy Systems, file e268c4c6-0eba-a6b7-e053-3a05fe0adea1
|
3
|
Comparison Between Uncontrolled and Controlled Solid Oxide Fuel Cell Hybrid Systems, file e268c4c6-1355-a6b7-e053-3a05fe0adea1
|
3
|
Advanced Control System for Grid-Connected SOFC Hybrid Plants: Experimental Verification in Cyber-Physical Mode, file e268c4ca-506c-a6b7-e053-3a05fe0adea1
|
3
|
Advanced Control System for Grid-Connected SOFC Hybrid Plants: Experimental Verification in Cyber-Physical Mode, file e268c4cb-8828-a6b7-e053-3a05fe0adea1
|
3
|
Dynamic simulation of a solar-hybrid microturbine system with experimental validation of main parts, file e268c4cc-276c-a6b7-e053-3a05fe0adea1
|
3
|
Scheduling of Energy Consumption in Stand-alone Energy Systems Considering the Battery Life Cycle, file e268c4cc-c7a1-a6b7-e053-3a05fe0adea1
|
3
|
A Degradation Diagnosis Method for Gas Turbine - Fuel Cell Hybrid Systems Using Bayesian Networks, file e268c4cc-cd53-a6b7-e053-3a05fe0adea1
|
3
|
Off-design performance analysis of a turbocharged solid oxide fuel cell system, file e268c4cc-f6a8-a6b7-e053-3a05fe0adea1
|
3
|
Efficient energy scheduling considering cost reduction and energy saving in hybrid energy system with energy storage, file e268c4cd-8707-a6b7-e053-3a05fe0adea1
|
3
|
Surge prevention techniques for a turbocharged solid oxide fuel cell hybrid system, file e268c4ce-4550-a6b7-e053-3a05fe0adea1
|
3
|
Totale |
3.699 |