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authorGravatar Jan Darowski <jan.darowski@gmail.com>2015-07-03 22:10:12 +0200
committerGravatar Jan Darowski <jan.darowski@gmail.com>2015-07-03 22:10:12 +0200
commitbed3b9eea3d0ba27433d8df55cd0e0eadeca5dcf (patch)
tree6dd3caedb68bb1e7a08aab22b5edb1ebcf85d6e3 /deco.c
parent94f3fc854295be3457331727e1d20105e3595ba6 (diff)
downloadsubsurface-bed3b9eea3d0ba27433d8df55cd0e0eadeca5dcf.tar.gz
VPM-B: add crushin pressure calculation.
Add new structures holding vpm-b state. Add function calculating current crushing pressure. Call it from add_segment() on every ambient pressure change. It determines what pressure acts on nuclei during the descent and thus their size at the beggining of the deco. Signed-off-by: Jan Darowski <jan.darowski@gmail.com>
Diffstat (limited to 'deco.c')
-rw-r--r--deco.c43
1 files changed, 43 insertions, 0 deletions
diff --git a/deco.c b/deco.c
index c4b3f53af..f29a82600 100644
--- a/deco.c
+++ b/deco.c
@@ -102,6 +102,15 @@ double tolerated_by_tissue[16];
double tissue_inertgas_saturation[16];
double buehlmann_inertgas_a[16], buehlmann_inertgas_b[16];
+double max_n2_crushing_pressure[16];
+double max_he_crushing_pressure[16];
+
+double crushing_onset_tension[16]; // total inert gas tension in the t* moment
+double n2_regen_radius[16]; // rs
+double he_regen_radius[16];
+double max_ambient_pressure; // last moment we were descending
+
+
static double tissue_tolerance_calc(const struct dive *dive)
{
int ci = -1;
@@ -234,6 +243,39 @@ double calc_inner_pressure(double crit_radius, double onset_tension, double curr
return onset_tension * (pow(onset_radius, 3) / pow(current_radius, 3));
}
+// Calculates the crushing pressure in the given moment. Updates crushing_onset_tension and critical radius if needed
+void calc_crushing_pressure(double pressure)
+{
+ int ci;
+ double gradient;
+ double gas_tension;
+ double n2_crushing_pressure, he_crushing_pressure;
+ double n2_inner_pressure, he_inner_pressure;
+
+ for (ci = 0; ci < 16; ++ci) {
+ gas_tension = tissue_n2_sat[ci] + tissue_he_sat[ci] + vpmb_config.other_gases_pressure;
+ gradient = pressure - gas_tension;
+
+ if (gradient <= vpmb_config.gradient_of_imperm) { // permeable situation
+ n2_crushing_pressure = he_crushing_pressure = gradient;
+ crushing_onset_tension[ci] = gas_tension;
+ }
+ else { // impermeable
+ if (max_ambient_pressure >= pressure)
+ return;
+
+ n2_inner_pressure = calc_inner_pressure(vpmb_config.crit_radius_N2, crushing_onset_tension[ci], pressure);
+ he_inner_pressure = calc_inner_pressure(vpmb_config.crit_radius_He, crushing_onset_tension[ci], pressure);
+
+ n2_crushing_pressure = pressure - n2_inner_pressure;
+ he_crushing_pressure = pressure - he_inner_pressure;
+ }
+ max_n2_crushing_pressure[ci] = MAX(max_n2_crushing_pressure[ci], n2_crushing_pressure);
+ max_he_crushing_pressure[ci] = MAX(max_he_crushing_pressure[ci], he_crushing_pressure);
+ }
+ max_ambient_pressure = MAX(pressure, max_ambient_pressure);
+}
+
/* add period_in_seconds at the given pressure and gas to the deco calculation */
double add_segment(double pressure, const struct gasmix *gasmix, int period_in_seconds, int ccpo2, const struct dive *dive, int sac)
{
@@ -256,6 +298,7 @@ double add_segment(double pressure, const struct gasmix *gasmix, int period_in_s
tissue_n2_sat[ci] += n2_satmult * pn2_oversat * n2_f;
tissue_he_sat[ci] += he_satmult * phe_oversat * he_f;
}
+ calc_crushing_pressure(pressure);
return tissue_tolerance_calc(dive);
}