diff --git a/README.md b/README.md
index 36965e835d1f957aa740c32d60f2fb7a1717cbad..b7448c7590bb785d4e71b93554513ef4f65d9bf0 100644
--- a/README.md
+++ b/README.md
@@ -2,6 +2,9 @@ This repository contains the code for the paper "Economically optimal operation
 
 The scenario_A_data.spydata and plot_data.py files allow for plotting of a typical RAS scenario without having to redo the timely simulation. Simply import the .spydata into a Spyder console and run the .py file.
 
-To run the MPC-operated RAS simulation, first run the additionale_dy.py file to import noise into the simulation. Then run the the SOURCE_RAS_tempchange.py file; this will begin the simulation, which takes a few days to run.
+To run the MPC-operated RAS simulation, follow these instructions:
+    1) Download the SOURCE_RAS_tempchange.py, additionale_dy.py, MPC_RAS_tempdist_git.py, and PLANT_RAS_tempdist.py files into the same folder.    
+    2) Run the additionale_dy.py file to import noise into the simulation. 
+    3) Run SOURCE_RAS_tempchange.py file; this will begin the simulation, which takes a few days to run.
 
 All files can be run as displayed herein. They require installation of the Pyomo modelling environment (http://www.pyomo.org/) and the IPOPT solver (https://www.coin-or.org/download/binary/Ipopt/).