The Thermochemical Power Group of the University of Genoa, Italy, has developed a new “Gas Turbine” laboratory to introduce undergraduate students to the Gas Turbines and Innovative Cycles course, and Ph.D.s to advanced experimental activities in the same field. In the laboratory a general-purpose experimental rig, based on a modified commercial 100 kW recuperated micro gas turbine, was installed and fully instrumented. One of the main objectives of the laboratory is to provide both students and researchers with several experimental possibilities to obtain data related to the gas turbine steady-state, transient, and dynamic performance, including the effect of interaction between the turbomachines (especially the compressor), and more complex innovative gas turbine cycle configurations, such as recuperated, humid air, and hybrid (with high temperature fuel cells). The facility was partially funded by two Integrated Projects of the EU VI Framework Program (Felicitas and LARGE-SOFC) and the Italian Government (PRIN project), and it was designed with a high flexibility approach including: flow control management, cogenerative and trigenerative applications, downstream compressor volume variation, grid-connected or stand-alone operations, recuperated or simple cycles, and room temperature control. The paper also shows, as an example of the possibilities offered by the rig, experimental data obtained by both Master and Ph.D. students. The tests presented here are essential for understanding commercial gas turbines and microturbine performance, control strategy development, and theoretical model validation.

1.
Kolanowski
,
B. F.
, 2004,
Guide to Microturbines
,
Fairmont
,
Lilburn, GA
.
2.
Magistri
,
L.
,
Traverso
,
A.
,
Cerutti
,
F.
,
Bozzolo
,
M.
,
Costamagna
,
P.
, and
Massardo
,
A. F.
, 2005, “
Modelling of Pressurised Hybrid Systems Based on Integrated Planar Solid Oxide Fuel Cell (IP-SOFC) Technology
,”
Fuel Cells
0532-7822,
1
(
5
), pp.
80
96
.
3.
Pedemonte
,
A. A.
,
Traverso
,
A.
, and
Massardo
,
A. F.
, 2008, “
Experimental Analysis of Pressurised Humidification Tower for Humid Air Gas Turbine Cycles—Part A: Experimental Campaign
,”
Appl. Therm. Eng.
1359-4311,
28
, pp.
1711
1725
.
4.
Elmeegard
,
B.
, and
Qvale
,
B.
, 2002, “
Analysis of Indirectly Fired Gas Turbine for Wet Biomass Fuels Based on Commercial Micro Gas Turbine Data
,” ASME Paper No. GT2002-30016.
5.
Schirmeister
,
U.
, and
Staudacher
,
S.
, 2006, “
Operational Performance Analysis of an Externally Fired Gas Turbine
,” ASME Paper No. GT2006-90830.
6.
Ferrari
,
M. L.
,
Pascenti
,
M.
,
Bertone
,
R.
,
Magistri
,
L.
, 2009, “
Hybrid Simulation Facility Based on Commercial 100 kWe Micro Gas Turbine
,”
ASME J. Fuel Cell Sci. Technol.
1550-624X,
6
, p.
031008
.
7.
Tucker
,
D.
,
Liese
,
E.
,
VanOsdol
,
J. G.
,
Lawson
,
L. O.
, and
Gemmen
,
R. S.
, 2003, “
Fuel Cell Gas Turbine Hybrid Simulation Facility Design
,”
2003 ASME International Mechanical Engineering Congress and Exposition
, New Orleans, LA.
8.
Moretti
,
J.
, 2007, “
Test Rig Emulator of a Hybrid System with Micro Gas Turbine
,” MS thesis, TPG-DiMSET, University of Genoa (in Italian).
9.
Turbec T100 Series 3, 2002,
Installation Handbook
.
10.
Pascenti
,
M.
,
Ferrari
,
M. L.
,
Magistri
,
L.
, and
Massardo
,
A. F.
, 2007, “
Micro Gas Turbine Based Test Rig for Hybrid System Emulation
,” ASME Paper No. GT2007-27075.
11.
Greitzer
,
E. M.
, 1976, “
Surge and Rotating Stall in Axial Compressors. Part I: Theoretical Compression System Model. Part II: Experimental Results and Comparison With Theory
,”
ASME J. Eng. Power
0022-0825,
98
(
2
), pp.
190
217
.
12.
Pascenti
,
M.
, 2009, “
Development, Study and Experimental Characterisation of a Hybrid System Emulator Plant
,” Ph.D. thesis, TPG-DiMSET, University of Genoa.
13.
Ferrari
,
M. L.
,
Pascenti
,
M.
,
Magistri
,
L.
, and
Massardo
,
A. F.
, 2009, “
Micro Gas Turbine Recuperator: Steady-State and Transient Experimental Investigation
,” ASME Paper No. GT2009-59172.
14.
Ghigliazza
,
F.
,
Traverso
,
A.
,
Pascenti
,
M.
, and
Massardo
,
A. F.
, 2009, “
Micro Gas Turbine Real-Time Modeling: Test Rig Verification
,” ASME Paper No. GT2009-59124.
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