Optimal energy efficiency of isolated PAT systems by SEIG excitation tuning

Abstract The use of pump working as turbine (PAT) was identified by many researchers as a way to improve the energy efficiency in the water systems. However, the majority of the researches consider the hydraulic machine connected to the electrical grid, which may not fit best when these recovery systems are located in rural or remote areas. To improve the efficiency in these recovery systems for rural areas, this research contributes for a further study and optimization of the off-grid PAT systems with induction generators. The current manuscript proposes a methodology to obtain the best efficiency of the PAT-SEIG (Self-Excited Induction Generator) system when operating under different speeds and loads. For these systems, the selection of capacitors for the SEIG is critical to maximizing the energy efficiency. A methodology is proposed to estimate and select the correct SEIG model parameters and, thus, compute the best capacitor values to improve the PAT-SEIG energy efficiency. Special attention is given to the impact the SEIG parameters have in the efficiency of the recovery system. The accuracy of the analytical model improved, reducing the error between analytical and experimental results from 50.8% (for a model with constant parameters) to 13.2% (with parameters changing according to the operating point of the system). These results showed an increase of the overall PAT system efficiency from 26% to 40% for the analyzed case study.

[1]  Helena M. Ramos,et al.  Modeling Irrigation Networks for the Quantification of Potential Energy Recovering: A Case Study , 2016 .

[2]  S. Barbarelli,et al.  Experimental activity at test rig validating correlations to select pumps running as turbines in microhydro plants , 2017 .

[3]  Helena M. Ramos,et al.  Electrical behaviour of the pump working as turbine in off grid operation , 2017 .

[4]  Nicola Fontana,et al.  Losses Reduction and Energy Production in Water-Distribution Networks , 2012 .

[5]  Aonghus McNabola,et al.  A model for the extrapolation of the characteristic curves of Pumps as Turbines from a datum Best Efficiency Point , 2018, Energy Conversion and Management.

[6]  Mehrdad Kazerani,et al.  Identifying machine parameters influencing the operation of the self-excited induction generator , 2004 .

[7]  Ali M. Eltamaly New formula to determine the minimum capacitance required for self-excited induction generator , 2002, 2002 IEEE 33rd Annual IEEE Power Electronics Specialists Conference. Proceedings (Cat. No.02CH37289).

[8]  Suneet Singh,et al.  Excitation capacitance required for self excited single phase induction generator using three phase machine , 2008 .

[9]  Marc A. Rosen,et al.  Advancements in sustainable development of energy, water and environment systems , 2018, Energy Conversion and Management.

[10]  Emanuela Colombo,et al.  Off-grid systems for rural electrification in developing countries: Definitions, classification and a comprehensive literature review , 2016 .

[11]  Helena M. Ramos,et al.  Simulated Annealing in Optimization of Energy Production in a Water Supply Network , 2016, Water Resources Management.

[12]  Mateus Ricardo Nogueira Vilanova,et al.  Hydropower recovery in water supply systems: Models and case study , 2014 .

[13]  N. Kumaresan,et al.  Decoupled control strategy for the operation of capacitor-excited induction generator for DC power applications , 2016 .

[14]  Helena M. Ramos,et al.  Pumps as turbines: an unconventional solution to energy production , 1999 .

[15]  Feng-Chen Li,et al.  Investigation on pump as turbine (PAT) technical aspects for micro hydropower schemes: A state-of-the-art review , 2017 .

[16]  A. A. Williams Pumps as turbines for low cost micro hydro power , 1996 .

[17]  M. Faisal Khan,et al.  Self regulating three phase-self excited induction generator for standalone generation , 2013, 2013 Annual IEEE India Conference (INDICON).

[18]  Armando Carravetta,et al.  Velocities in a Centrifugal PAT Operation: Experiments and CFD Analyses , 2017 .

[19]  Massimiliano Renzi,et al.  Pump-as-turbine for Energy Recovery Applications: The Case Study of An Aqueduct☆ , 2016 .

[20]  E. C. Bortoni,et al.  Isolated induction generator in a rural Brazilian area: Field performance tests , 2015 .

[21]  Helena M. Ramos,et al.  Energy Recovery Using Micro-Hydropower Technology in Water Supply Systems: The Case Study of the City of Fribourg , 2016 .

[22]  Peter Palensky,et al.  Dynamics of wind-turbine driven Self-Excited Induction Generator with online parameter calculation , 2013, IECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society.