Skip to content

3D Graphical Output of well producers and injectors in oil reservoir.

License

Notifications You must be signed in to change notification settings

FracThePermian/Reservoir-Simulation-Part-B

Repository files navigation

Reservoir-Simulation-Part-B

Compares analytical/numerical results for the drainage of multiple wells w/n the dimensions that you define (drainage area and depth). The Nechelik (.dat) files provide porosity and permeability for each unit block of reservoir. Modify the following variables to your liking.

Control the placement of wells and whether they are injecting and/or producing.

It is written in Matlab, is self-contained, and no external dependencys.

Assumptions

  • Incompressible Fluid
  • Homogeneous/Heterogeneous Reservoir
  • Neumann boundary (Reservoir side)
  • Dirichlet boundary (Well side)

Modify Parameters

  • Reservoir Depth, Area, and Volume (ft ; ft^2 ; ft^3)
  • Reservoir Pressure (psi)
  • Time and/or Iterations (days)
  • Porosity (phi)
  • Permeability (k)
  • Compressibility (ct)
  • Flow Rate (+/- Q)
  • Damage (hk)

Method and Materials

  • The Finite Element Method (FEM) is an essential numerical tool for solving boundary value problems of PDE's.

Snippet of module that generates sparsity matrix

for i = 1:N  		%Generate sparsity matrix
    if i+NX <= N 
        T_diag = T_frac(i,i+NX,Ay,mu,Bw,dy);
        T(i,i+NX) = T(i,i+NX)-T_diag;
        T(i+NX,i) = T(i+NX,i)-T_diag;
    end
    
    % This is for diagonals toward the inside of sparsity
    if (mod(i,NX) ~= 0) && (i+1 <= N)  
        T_diag = T_frac(i,i+1,Ax,mu,Bw,dx);
        T(i,i+1) = T(i,i+1)-T_diag;
        T(i+1,i) = T(i+1,i)-T_diag;
    end
    T(i,i) = abs(sum(T(i,:)));%Sum up every row on every iteration
    if BC(i) ~= 0 %if and only if the boundary condition exists
        T(i,i) = T(i,i)+BC(i)*2*T_frac(i,i,Ax,mu,Bw,dx);
    end

Analytical Solution to Pressure Profile

function P = P_analytical(r,t)
Pi = 1000;q = 1000/5.615;mu = 1;k = 25;h = 10;phi = 0.2;ct = 1e-6
P = Pi -70.6*q*mu/(h*k)*expint((39.516*phi*mu*ct*(r).^2)/(k*t));

Installation

Download package:

git clone https://github.com/FracThePermian/Reservoir-Simulation-Part-B

Navigate to folder from Matlab (~/Reservoir-Simulation-Part-B/) and run the Project_1_Main.m script.

Results

3D Pressure Profile

Pressure Visualization

Pressure topology

Pressure Contours

3D Pressure Profile

Pressure Contour 2

Flow Rate vs. Time

Rate vs. Time

Cumulative Oil Production

Cumulative Oil Production

License

MIT