- #Mw output on generator power world simulator upgrade#
- #Mw output on generator power world simulator portable#
- #Mw output on generator power world simulator simulator#
#Mw output on generator power world simulator simulator#
The team’s proposed power plant design seeks a very small footprint for a compact, potentially transportable energy source that is fully deployable and emissions-free. real/reactive output of generator free to vary Simulator tries maintain them within limits, but if that is not possible, this generator will violate limits At AVR generator buses (PV buses) voltage magnitude is fixed reactive output of generator is free to vary At other buses (PQ buses) Power and Reactive power injections are fixed ©2008 PowerWorld Corporation I7-6. The team will pursue improved electron and ion temperatures through odd-parity RMF heating, as well as identify the modeling needed to elucidate the key heating and loss mechanisms for their fusion concept. For this lab you will want to use Constant Impedance. Normally the load is given in Constant Power terms. Enter a value of 100 for the Generator MVA Base Load: You need to have numbers in all of the Base Load Model boxes. Odd-parity heating holds the potential to heat ions and electrons to fusion-relevant temperatures in a stable, sustained plasma, while maintaining good energy confinement. Generator: Set initial values for MW and MvarsOutput Ensure the Enforce MW output box is checked. The concept uses an innovative method called odd-parity rotating-magnetic-field (RMF) heating to drive electrical current and heat plasma to fusion temperatures.
#Mw output on generator power world simulator portable#
The team’s PFRC concept is a small, clean, and portable design based on a field-reversed-configuration plasma. network was developed in Power World Simulator using the network data sourced from relevant utility companies. Princeton Fusion Systems seeks to develop technologies to enable future commercial fusion power. The high-beta (ratio of plasma pressure to magnetic pressure) configuration may enable the high plasma temperatures needed for fusion to be achieved with a relatively modest magnetic field, and eventually the use of advanced fusion fuels that produce little to no radioactivity. These objectives will require upgrades to the radio-frequency (rf) forward power and magnetic field strength, as well as the application of sophisticated diagnostics to measure temperature inside the upgraded PFRC-2.
#Mw output on generator power world simulator upgrade#
The Princeton Fusion Systems team will upgrade the PFRC-2 to enable increases in fuel density to the 1013-cm-3 range and reproducible electron and ion heating both to the kilo-electronvolt (keV) range. The PFRC-2 iteration holds the world record for stable field-reversed configuration plasma duration. 4) Vary the values of the capacitor voltage and note down the values of the real power line losses and power flow into the feeder. 3) Go to tools option and select play button.
2) Select the run mode for the schematic. The PFRC promises a new approach to fusion power-generation design. The following are the steps to simulate the Power World Simulator circuit: 1) Open the circuit in the Power World Simulator. The Princeton field-reversed configuration (PFRC) fusion project aims to develop small, simple, and clean fusion power generators in the 1–10 MW “micro-reactor” class.