Surge prevention for gas turbines connected with large volume size: Experimental demonstration with a microturbine

Ferrari, Mario L.; Silvestri, Paolo; Reggio, Federico; Massardo, Aristide F.

doi:10.1016/j.apenergy.2018.09.075

Cited by 13 publications

(3 citation statements)

References 39 publications

(53 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The compressor in this system is susceptible to surge & stall instabilities just like any other radial compressors. But the phenomenon of the surge and stall mechanism are more complex than that of an ordinary compressor [8], [9], [10] due to reasons such as the closed-loop system, presence of 2 plenums (evaporator upstream and condenser downstream), the real gas effects and two-phase nature of the refrigerant in the cycle, and, finally, the heat transfer between refrigerant and external water circuit [11]. Hence, the classical compressor dynamic models developed by Greitzer and Moore [12], [13] for open loop systems and later modified by Botha et.…”

Section: Introductionmentioning

confidence: 99%

A new experimental test rig for performance analysis of radial compressors inside innovative heat pumps

Ferrando

Reboli

Purushothaman

et al. 2023

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

Electrification is playing a major role in the industrial and energy sector, with heat pump (HP) market expected to grow significantly in the next future in accordance with the current energy transition phase, which aims to reduce the utilization of fossil fuels for heat production sector. It is therefore of crucial importance to find new ways to increase heat pump performance and reliability, containing maintenance costs. The use of dynamic compressors in HPs makes it possible to combine good performance with high compactness and silent operation, but unlike the volumetric compressor, this equipment could undergo dangerous instability during operation, which can occur in closed-cycle configuration, quite unusual for dynamic compressors. The aim of this paper is to present a new test-rig for stable and unstable performance analysis of dynamic compressors for innovative heat pumps. An in-depth description of the plant and instrumentation system is provided. The performance of the compressor is analyzed for different operating points, with a particular focus on near-surge operation. Experimental uncertainties and their reduction through data reconciliation techniques is thoroughly investigated.

show abstract

Section: Introductionmentioning

confidence: 99%

A new experimental test rig for performance analysis of radial compressors inside innovative heat pumps

Ferrando

Reboli

Purushothaman

et al. 2023

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

show abstract

“…where Vbl, Vb are consumption of gas ballast and boiler's flue gases, nm 3 / s (normal cubic meter per second), r is equivalent proportion of flue gases, increasing heat losses with flue-gas flows pass to atmosphere from q'2 till q''2. If the gas recovery technology involves a gas recirculation, replacement of inert products from the gas-processing complex will take place with minimum losses Δq2=(q"2-q'2), kW [13,14]. Consider several examples of rational substitution.…”

Section: Introductionmentioning

confidence: 99%

Method of Combined Heat and Electricity Generation Using Biogas and Coal-Water Slurries

Осинцев¹,

Дудкин²,

Prikhodko³

et al. 2019

Proceedings of the VIII Science and Technology Conference “Contemporary Issues of Geology, Geophysics and Geo-Ecology of the No

View full text Add to dashboard Cite

Agroindustrial complexes are built in a technological and geographical binding to the sources of heat and electricity. In the absence of the possibility of connecting to the central distribution heat and power networks in the investment project, proposals are made for the construction of a source of heat and electricity on affordable fuel. An agricultural complex may be located in a remote area, for example, in a mountainous area, without access to natural gas. In this case, it is economically advantageous to deliver water-coal fuel to the agro-complex, and to receive biogas fuel from the production waste on the territory of the enterprise itself. The properties of biogas and coal-water fuel allow processing enterprises to generate heat and electricity autonomously.

show abstract

“…The present paper will take a look to some of these analyses conducted in the past, highlighting the ideas behind each proposed solution to face this issue, and then will analyse more in detail techniques nowadays used in trying to solve the same problem. Large importance will be given to vibro-acoustic analyses and digital processing of physical signals acquired from probes and sensors, trying to exploit and extract all information contained and possibly hidden in original signals [5]. Another relevant kind of analysis is the one which considers also the mechanical behaviour of compressors, both on the force measurements side [6] and on the rotodynamic modelling point of view [7], capturing information on fluid-dynamic phenomena that are taking place inside the machine, exploiting possible coupled response of complex systems.…”

Section: Introductionmentioning

confidence: 99%

Surge prevention in gas turbines: an overview over historical solutions and perspectives about the future

et al. 2019

Self Cite

View full text Add to dashboard Cite

The aim of the present work is to retrace experimental, analytical and numerical analyses which deal with compressor instability phenomena, such as rotating stall and surge. While the first affects only the machine itself, the second involves the whole energy system. Surge onset is characterized by strong pressure and mass flow rate fluctuations which can even lead to reverse flow through the compressor. Experimental studies on prevention of axial compressor fluid dynamic instabilities, which can be propagated and eventually damage the solid structure, have been carried out by many authors. The first important studies on this topic tried to underline the main aspects of the complex detailed mechanism of surge, by replacing the compression system with an equivalent conceptual lumped parameter model. This is specially meant to capture the unsteady behaviour and the transient response of the compression system itself, particularly its dependence on variations in the volume of discharge downstream and in the settings of the throttle valve at its outlet (which simulates the actual load coupled to the compressor). Greitzer’s model is still regarded as the milestone for new investigations about active control and stabilization of surge and, more generally, about active suppression of aerodynamic instabilities in turbomachinery. During the last years, a lot of simulations and experimental studies about surge have been conducted on multistage centrifugal compressors with different architectures (e.g. equipped with vaneless or vaned diffusers). Moreover, further kinds of analysis try to extend the stable working zone of compressors, identifying stall and surge precursors extractable from information contained in the vibro-acoustical and rotodynamic response of the system.

show abstract

Surge prevention for gas turbines connected with large volume size: Experimental demonstration with a microturbine

Cited by 13 publications

References 39 publications

A new experimental test rig for performance analysis of radial compressors inside innovative heat pumps

A new experimental test rig for performance analysis of radial compressors inside innovative heat pumps

Method of Combined Heat and Electricity Generation Using Biogas and Coal-Water Slurries

Surge prevention in gas turbines: an overview over historical solutions and perspectives about the future

Contact Info

Product

Resources

About