Modeling Solar Grid Integration with Math
Overview The purpose of this lesson is to introduce the students to the challenges of integrating solar energy to the electricity grid with the use of numerical simulations. More specifically, it is meant to shed light on the advantages (mentioned in the introduction of this document) and on the challenges (challenges 1 and 2 from the introduction) of solar energy. Solar Integration Lesson Essential Question: How can we optimize energy prices by controlling load and production? NGSS Standards: Standard Number Standard text HS-ETS-1 Analyze a major global challenge to specify qualitative and quantitative criteria and constraints for solutions that account for societal needs and wants. HS-ETS-2 Design a solution to a complex real-world problem by...
Water Model of Electricity
Created by Nathan Wilson for the University of Washington Clean Energy Institute Overview: The goal of this activity is to allow students to apply their knowledge of Ohm’s law to a more intuitive and visual system: water flowing through tubes. The total time for this activity is around 30 minutes. Students are assumed to be familiar Ohm’s law (V/R=I) where V is volts, R is resistance, and I is current, as well as the formula for calculating the resistance of a resistor (R=ρl/A). where p is resistivity in ohms/meter, l is length, A is area of the conductor. Essential Question: How can we model the behavior of electricity...