Rajavamsi Gangipamula scite author profile

Rajavamsi Gangipamula

3Publications

7Citation Statements Received

0Citation Statements Given

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Affiliations

Kirloskar Group (India), Birla Institute of Technology and Science, Pilani, Birla Institute of Technology and Science, Pilani - Goa Campus

Publications

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Flow-induced noise sources and reduction methods in centrifugal pumps: A literature review

Gangipamula

Ranjan

Patil

2022

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The present review paper describes the research work conducted by many researchers in the field of hydro acoustics of centrifugal pumps. This study aims to understand the flow induced noise mechanism, factors affecting it, and available methods to attenuate the same in centrifugal pumps. In general, the noise generated by a pump is interpreted in terms of pressure pulsations and can be represented in the frequency domain as a combination of discrete components and broadband components. In the discrete frequency noise component, the major emphasis is given on blade pass frequency noise and its relation to rotor-stator Interaction in pumps. The intensified rotor-stator Interaction results in high pressure pulsations thus strong flow induced noise. The effect of various geometrical parameters on rotor-stator Interaction and available methods to mitigate it to reduce noise are discussed in detail. Apart from rotor-stator Interaction, the importance of energy loss mechanisms such as flow recirculation, flow-separation, jet-wakes occurrence in pumps which affect the blade pass frequency component are also discussed. One of the other discrete noise components, the Rotating stall mechanism with its physical mechanism also explored in detail. Subsequently, two major phenomena of broadband noise components, turbulence and cavitation are explained. For cavitation, the phenomenon is elaborated in detail and the various methods explored by the researchers to predict existence of the cavitation phenomenon using acoustic spectrum. Conclusions are also drawn for each source by describing the major events. In the end, the possible future scope of work that can be explored is given.

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Comparative studies on air borne noise and flow induced noise of a double suction centrifugal pump

2023

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Study of rotor–stator interaction phenomenon in a double-suction centrifugal pump with impeller vane trailing edge as a design parameter

Gangipamula

Ranjan

Patil

2022

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Various geometrical parameters like cut-water clearance, volute tongue location, tongue radius, vane trailing edge profile and flow parameters like speed, operating point affect the rotor-stator interaction in a centrifugal pump. In the present investigation, vane trailing edge is selected as a design parameter for profile modifications to study and reduce the rotor-stator interaction intensity and hence the pressure pulsations. A double suction centrifugal pump with tangential discharge volute (M1), specific speed (ns) 19 has been selected for the numerical experiments. Transient analysis using Detached Eddy Simulation is used for predicting flow parameters behavior at impeller periphery (primary source) and volute tongue locations (secondary source). The impeller periphery probes in the rotor-stator interaction zone are used to identify the intensity of jet-wake flow phenomenon and its interaction with the volute tongue. Similar strategy has been applied by modifying the trailing edge profile of the original geometry with vane underfiling (M2) and the M2 vane geometry with novel trailing edge profile (M3). The pressure pulsation behavior along the impeller periphery (primary source) shows the strong reduction of pressure amplitude near volute tongue by 42% in M3 compared to M1 aligning with the reduction of jet-wake flow intensity. The pressure fluctuation (rms) near volute tongue (secondary source) shows an average reduction of 11% in modified trailing edge (M3) relative to M1. The intensified rotor-stator interaction due to vortex shedding in M2 causes relatively higher pressure fluctuations (rms) near volute tongue compared to M1 and M3.

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