Microhydro


Turbine Cross-Flow T-14 D150

Based on research T-14 D300 in ITH Universitat Stuttgart, Germany.

Performance and profile hydraulic T-14 D150 based on research T-14 D300 in ITH Universitat Stuttgart, Germany. T-14 D150 is appropriate in capacity and debit which doesn't economic if use T-14 D300. This is one type of Mic

Turbine Pelton HeksaHydro

Turbine Pelton is appropriate for high head and low water flow, especially range head which can't be served with T-14 D300 or T-15 D500.

Turbine Pelton is appropriate for high head and low water flow, especially range head which can't be served with T-14 D300 or T-15 D500. There is available in option vertical shaft with 4 jets (nozzles) or horizontal shaft

Turbine Peltric P-14

Turbine Peltric is appropriate for high head and low water flow, especially range head which can't be served with T-14 D150.

Turbine Peltric is appropriate for high head and low water flow, especially range head which can't be served with T-14 D150. There is available in 2 options: vertical shaft with 4 jets (nozzles) or horizontal shaft with 2 jets. For horizontal shaft t

Turbine Cross-Flow T-15 D500

Design of T-15 D500 is same with T-14 D300, but the difference is T-15 D500 has diameter runner 500 mm.

T-15 D500 is the latest cross-flow turbine which produced with diameter runner 500 mm. Basically T-15 D500 design is same with T-14 D300 design because there isn't the difference profile hydraulics from the turbine significantly between T-15 and T-14. 

Electronic Load Controller MC1

Electronic Load Controller is load control system to synchronize generator.

Electronic Load Controller (ELC) is load control system to synchronize generator. With ELC, load frequency on main load (station output) can be guaranteed stable though debit turbine constant. If occur reduction of load on output station then ELC will discharge over load on balla