xref: /honee/qfunctions/newtonian_state.h (revision 704b8bbec5160b50bdbeb899c12e13fec5e0b179) 
1475b2820SJames Wright // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors.
2475b2820SJames Wright // All Rights Reserved. See the top-level LICENSE and NOTICE files for details.
3475b2820SJames Wright //
4475b2820SJames Wright // SPDX-License-Identifier: BSD-2-Clause
5475b2820SJames Wright //
6475b2820SJames Wright // This file is part of CEED:  http://github.com/ceed
7475b2820SJames Wright 
8475b2820SJames Wright /// @file
9475b2820SJames Wright /// Structs and helper functions regarding the state of a newtonian simulation
10475b2820SJames Wright 
11475b2820SJames Wright 
12475b2820SJames Wright #ifndef newtonian_state_h
13475b2820SJames Wright #define newtonian_state_h
14475b2820SJames Wright 
15475b2820SJames Wright #include <math.h>
16475b2820SJames Wright #include <ceed.h>
17475b2820SJames Wright #include "newtonian_types.h"
18*704b8bbeSJames Wright #include "utils.h"
19475b2820SJames Wright 
20475b2820SJames Wright typedef struct {
21475b2820SJames Wright   CeedScalar pressure;
22475b2820SJames Wright   CeedScalar velocity[3];
23475b2820SJames Wright   CeedScalar temperature;
24475b2820SJames Wright } StatePrimitive;
25475b2820SJames Wright 
26475b2820SJames Wright typedef struct {
27475b2820SJames Wright   CeedScalar density;
28475b2820SJames Wright   CeedScalar momentum[3];
29475b2820SJames Wright   CeedScalar E_total;
30475b2820SJames Wright } StateConservative;
31475b2820SJames Wright 
32475b2820SJames Wright typedef struct {
33475b2820SJames Wright   StateConservative U;
34475b2820SJames Wright   StatePrimitive Y;
35475b2820SJames Wright } State;
36475b2820SJames Wright 
37475b2820SJames Wright CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative(
38475b2820SJames Wright   NewtonianIdealGasContext gas, StateConservative U, const CeedScalar x[3]) {
39475b2820SJames Wright   StatePrimitive Y;
40475b2820SJames Wright   for (CeedInt i=0; i<3; i++) Y.velocity[i] = U.momentum[i] / U.density;
41475b2820SJames Wright   CeedScalar e_kinetic = .5 * Dot3(Y.velocity, Y.velocity);
42475b2820SJames Wright   CeedScalar e_potential = -Dot3(gas->g, x);
43475b2820SJames Wright   CeedScalar e_total = U.E_total / U.density;
44475b2820SJames Wright   CeedScalar e_internal = e_total - e_kinetic - e_potential;
45475b2820SJames Wright   Y.temperature = e_internal / gas->cv;
46475b2820SJames Wright   Y.pressure = (gas->cp / gas->cv - 1) * U.density * e_internal;
47475b2820SJames Wright   return Y;
48475b2820SJames Wright }
49475b2820SJames Wright 
50475b2820SJames Wright CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative_fwd(
51475b2820SJames Wright   NewtonianIdealGasContext gas, State s, StateConservative dU,
52475b2820SJames Wright   const CeedScalar x[3], const CeedScalar dx[3]) {
53475b2820SJames Wright   StatePrimitive dY;
54475b2820SJames Wright   for (CeedInt i=0; i<3; i++) {
55475b2820SJames Wright     dY.velocity[i] = (dU.momentum[i] - s.Y.velocity[i] * dU.density) / s.U.density;
56475b2820SJames Wright   }
57475b2820SJames Wright   CeedScalar e_kinetic = .5 * Dot3(s.Y.velocity, s.Y.velocity);
58475b2820SJames Wright   CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity);
59475b2820SJames Wright   CeedScalar e_potential = -Dot3(gas->g, x);
60475b2820SJames Wright   CeedScalar de_potential = -Dot3(gas->g, dx);
61475b2820SJames Wright   CeedScalar e_total = s.U.E_total / s.U.density;
62475b2820SJames Wright   CeedScalar de_total = (dU.E_total - e_total * dU.density) / s.U.density;
63475b2820SJames Wright   CeedScalar e_internal = e_total - e_kinetic - e_potential;
64475b2820SJames Wright   CeedScalar de_internal = de_total - de_kinetic - de_potential;
65475b2820SJames Wright   dY.temperature = de_internal / gas->cv;
66475b2820SJames Wright   dY.pressure = (gas->cp / gas->cv - 1)
67475b2820SJames Wright                 * (dU.density * e_internal + s.U.density * de_internal);
68475b2820SJames Wright   return dY;
69475b2820SJames Wright }
70475b2820SJames Wright 
71475b2820SJames Wright CEED_QFUNCTION_HELPER State StateFromU(NewtonianIdealGasContext gas,
72475b2820SJames Wright                                        const CeedScalar U[5], const CeedScalar x[3]) {
73475b2820SJames Wright   State s;
74475b2820SJames Wright   s.U.density = U[0];
75475b2820SJames Wright   s.U.momentum[0] = U[1];
76475b2820SJames Wright   s.U.momentum[1] = U[2];
77475b2820SJames Wright   s.U.momentum[2] = U[3];
78475b2820SJames Wright   s.U.E_total = U[4];
79475b2820SJames Wright   s.Y = StatePrimitiveFromConservative(gas, s.U, x);
80475b2820SJames Wright   return s;
81475b2820SJames Wright }
82475b2820SJames Wright 
83475b2820SJames Wright CEED_QFUNCTION_HELPER State StateFromU_fwd(NewtonianIdealGasContext gas,
84475b2820SJames Wright     State s, const CeedScalar dU[5],
85475b2820SJames Wright     const CeedScalar x[3], const CeedScalar dx[3]) {
86475b2820SJames Wright   State ds;
87475b2820SJames Wright   ds.U.density = dU[0];
88475b2820SJames Wright   ds.U.momentum[0] = dU[1];
89475b2820SJames Wright   ds.U.momentum[1] = dU[2];
90475b2820SJames Wright   ds.U.momentum[2] = dU[3];
91475b2820SJames Wright   ds.U.E_total = dU[4];
92475b2820SJames Wright   ds.Y = StatePrimitiveFromConservative_fwd(gas, s, ds.U, x, dx);
93475b2820SJames Wright   return ds;
94475b2820SJames Wright }
95475b2820SJames Wright 
96475b2820SJames Wright CEED_QFUNCTION_HELPER void FluxInviscid(NewtonianIdealGasContext gas, State s,
97475b2820SJames Wright                                         StateConservative Flux[3]) {
98475b2820SJames Wright   for (CeedInt i=0; i<3; i++) {
99475b2820SJames Wright     Flux[i].density = s.U.momentum[i];
100475b2820SJames Wright     for (CeedInt j=0; j<3; j++)
101475b2820SJames Wright       Flux[i].momentum[j] = s.U.momentum[i] * s.Y.velocity[j]
102475b2820SJames Wright                             + s.Y.pressure * (i == j);
103475b2820SJames Wright     Flux[i].E_total = (s.U.E_total + s.Y.pressure) * s.Y.velocity[i];
104475b2820SJames Wright   }
105475b2820SJames Wright }
106475b2820SJames Wright 
107475b2820SJames Wright CEED_QFUNCTION_HELPER void FluxInviscid_fwd(NewtonianIdealGasContext gas,
108475b2820SJames Wright     State s, State ds, StateConservative dFlux[3]) {
109475b2820SJames Wright   for (CeedInt i=0; i<3; i++) {
110475b2820SJames Wright     dFlux[i].density = ds.U.momentum[i];
111475b2820SJames Wright     for (CeedInt j=0; j<3; j++)
112475b2820SJames Wright       dFlux[i].momentum[j] = ds.U.momentum[i] * s.Y.velocity[j] +
113475b2820SJames Wright                              s.U.momentum[i] * ds.Y.velocity[j] + ds.Y.pressure * (i == j);
114475b2820SJames Wright     dFlux[i].E_total = (ds.U.E_total + ds.Y.pressure) * s.Y.velocity[i] +
115475b2820SJames Wright                        (s.U.E_total + s.Y.pressure) * ds.Y.velocity[i];
116475b2820SJames Wright   }
117475b2820SJames Wright }
118475b2820SJames Wright 
119475b2820SJames Wright // Kelvin-Mandel notation
120475b2820SJames Wright CEED_QFUNCTION_HELPER void KMStrainRate(const State grad_s[3],
121475b2820SJames Wright                                         CeedScalar strain_rate[6]) {
122475b2820SJames Wright   const CeedScalar weight = 1 / sqrt(2.);
123475b2820SJames Wright   strain_rate[0] = grad_s[0].Y.velocity[0];
124475b2820SJames Wright   strain_rate[1] = grad_s[1].Y.velocity[1];
125475b2820SJames Wright   strain_rate[2] = grad_s[2].Y.velocity[2];
126475b2820SJames Wright   strain_rate[3] = weight * (grad_s[2].Y.velocity[1] + grad_s[1].Y.velocity[2]);
127475b2820SJames Wright   strain_rate[4] = weight * (grad_s[2].Y.velocity[0] + grad_s[0].Y.velocity[2]);
128475b2820SJames Wright   strain_rate[5] = weight * (grad_s[1].Y.velocity[0] + grad_s[0].Y.velocity[1]);
129475b2820SJames Wright }
130475b2820SJames Wright 
131475b2820SJames Wright CEED_QFUNCTION_HELPER void NewtonianStress(NewtonianIdealGasContext gas,
132475b2820SJames Wright     const CeedScalar strain_rate[6], CeedScalar stress[6]) {
133475b2820SJames Wright   CeedScalar div_u = strain_rate[0] + strain_rate[1] + strain_rate[2];
134475b2820SJames Wright   for (CeedInt i=0; i<6; i++) {
135475b2820SJames Wright     stress[i] = gas->mu * (2 * strain_rate[i] + gas->lambda * div_u * (i < 3));
136475b2820SJames Wright   }
137475b2820SJames Wright }
138475b2820SJames Wright 
139475b2820SJames Wright CEED_QFUNCTION_HELPER void ViscousEnergyFlux(NewtonianIdealGasContext gas,
140475b2820SJames Wright     StatePrimitive Y, const State grad_s[3], const CeedScalar stress[3][3],
141475b2820SJames Wright     CeedScalar Fe[3]) {
142475b2820SJames Wright   for (CeedInt i=0; i<3; i++) {
143475b2820SJames Wright     Fe[i] = - Y.velocity[0] * stress[0][i]
144475b2820SJames Wright             - Y.velocity[1] * stress[1][i]
145475b2820SJames Wright             - Y.velocity[2] * stress[2][i]
146475b2820SJames Wright             - gas->k * grad_s[i].Y.temperature;
147475b2820SJames Wright   }
148475b2820SJames Wright }
149475b2820SJames Wright 
150475b2820SJames Wright CEED_QFUNCTION_HELPER void ViscousEnergyFlux_fwd(NewtonianIdealGasContext gas,
151475b2820SJames Wright     StatePrimitive Y, StatePrimitive dY, const State grad_ds[3],
152475b2820SJames Wright     const CeedScalar stress[3][3],
153475b2820SJames Wright     const CeedScalar dstress[3][3],
154475b2820SJames Wright     CeedScalar dFe[3]) {
155475b2820SJames Wright   for (CeedInt i=0; i<3; i++) {
156475b2820SJames Wright     dFe[i] = - Y.velocity[0] * dstress[0][i] - dY.velocity[0] * stress[0][i]
157475b2820SJames Wright              - Y.velocity[1] * dstress[1][i] - dY.velocity[1] * stress[1][i]
158475b2820SJames Wright              - Y.velocity[2] * dstress[2][i] - dY.velocity[2] * stress[2][i]
159475b2820SJames Wright              - gas->k * grad_ds[i].Y.temperature;
160475b2820SJames Wright   }
161475b2820SJames Wright }
162475b2820SJames Wright 
163475b2820SJames Wright #endif // newtonian_state_h
164