Pumping Station Simulation & Testing model Pumping Station Simulation & Testing model 10 december 2016 Emiel
First insight loop First insight loop 8 november 2016 Emiel Base experiment: 500 designs in 48 scenarios: 24000 simulations Sensitivity scoring Finding trade-offs
Weather Alarm Weather Alarm 7 november 2016 Emiel Weather Alarm: Can significantly reduce water level exceedance
Climate Scenarios Climate Scenarios 6 november 2016 Emiel Climate scenario: 2015 has low energy use (dry year) 2050 WH doubles water level exeedance Warm and High change in air patterns
Number of pumps Number of pumps 6 november 2016 Emiel 2 Pumps: Electrify two pumps, keep third gas-powered pump
Final robust design Final robust design 6 november 2016 Emiel number of pumps 2 3 pump inflow original inflow improved inflow motor choice induction motor permanent magnet weather alarm on off pump control normal day night APX local fish safety solution original impellers change impellers new fish safe pumps percentage energy neutral 0% 100% mix solar wind
Percentage Energy neutral Percentage Energy neutral 6 november 2016 Emiel 100% Energy Neutral: Within the budget Energy from cost to income Payback time 7 to 9 years
Mix solar wind Mix solar wind 5 november 2016 Emiel 50/50 Mix: Is optimal for local energy used, little effect on energy bill Up to 55% self-sufficient
Pump control Pump control 5 november 2016 Emiel Local control: Is very robust for local use and CO2 Slightly more expensive than APX The best choice if sustainability is important