Control Methods for Operation of Pumped Storage Plants with Full-size
Back-to-Back Converter Fed Synchronous Machines
Abstract
A full-size converter-fed synchronous machine (CFSM) for variable speed
operation of a pumped storage power plant exhibits multiple advantages
over the state-of-the-art doubly fed induction machine (DFIM)
technology. The CFSM technology is emerging as the most flexible system
for pumped storage plants for efficient operation in a wide range of
water flows, which is not the case in existing power plants. This
article presents steady-state control strategies to execute the variable
speed operation of the pumped storage power plants in both turbine and
pump mode using a full-size back-to-back converter.
Furthermore, the starting method of the power plant in pump and turbine
mode from a standstill is proposed. In addition, the seamless transition
of operating modes from the turbine to pump mode and vice versa is
presented, which is an essential feature required to adapt to the
varying power generation from renewable energy sources like solar and
wind. The behavior of the power plant during a voltage dip on ac grid,
and the low-voltage ride-through (LVRT) capability in both turbine and
pump modes are also presented. The proposed control strategies are
experimentally verified with a 100 kVA machine and converter setup with
an emulated reversible pump turbine (RPT) and waterways.