# Correlations & performance maps / Corrélations & cartes Master inventory of **every performance map and heat-transfer / pressure-drop correlation** wired in Entropyk (as of 2026-07-17). Inventaire de **toutes** les cartes et corrélations du code. Sources principales : - `crates/components/src/compressor.rs` — AHRI 540 + SST/SDT - `crates/components/src/screw_economizer_compressor.rs` — polynômes 2D + presets - `crates/components/src/isentropic_compressor.rs` — η_is + volumétrique - `crates/components/src/polynomials.rs` — Polynomial1D / Polynomial2D - `crates/components/src/heat_exchanger/bphx_correlation.rs` — formules h - `crates/components/src/heat_exchanger/correlation_registry.rs` — catalogue + domaines - `crates/components/src/heat_exchanger/eps_ntu.rs` / `lmtd.rs` — HX génériques - `crates/components/src/heat_exchanger/two_phase_dp.rs` — ΔP biphasique - `crates/components/src/fan.rs` / `pump.rs` — courbes 1D --- ## EN ### 1. Compressors — performance maps | Component | Model ID | Formula (summary) | Inputs | Outputs | UI / JSON | |-----------|----------|-------------------|--------|---------|-----------| | **IsentropicCompressor** | Physics + η_is | `h_dis = h_suc + (h_is−h_suc)/η_is` ; emergent: `ṁ = ρ·V_d·N·η_vol·z_flow` | η_is, T guesses, V_d, N | ṁ, h_dis, W | η, emergent, displacement, speed | | **Compressor** | **AHRI 540** (`model_type=Ahri540`) | `ṁ = M1·(1−(P_s/P_d)^{1/M2})·ρ·V·N/60` ; `Ẇ_cool = M3+M4·PR+M5·T_s+M6·T_d` (heating M7–M10) | M1…M10, V, N | ṁ, Ẇ | `m1`…`m10`, `speed_rpm`, `displacement_m3` | | **Compressor** | **SST/SDT poly** (`model_type=SstSdt`) | `ṁ = a00+a10·SST+a01·SDT+a11·SST·SDT` ; same for Ẇ with `pw_b**` | bilinear coeffs | ṁ, Ẇ | `mf_a**`, `pw_b**` (CLI + UI) | | **ScrewEconomizerCompressor** | **Bilinear SST/SDT** | `ṁ_suc = z_flow·(a00+a10·SST+a01·SDT+a11·SST·SDT)` ; same for Ẇ with b_ij ; eco fraction poly | presets + overrides | ṁ_suc, ṁ_eco, Ẇ | `preset`, `mf_a**`, `pw_b**` | #### Screw presets (CLI) | Preset | ṁ (a00,a10,a01,a11) | Power (b00,b10,b01,b11) | eco frac | |--------|---------------------|-------------------------|----------| | `bitzer_generic_200kw` | 1.35, 0.004, −0.0025, 1.2e−5 | 58000, 180, −280, 0.4 | 0.13 | | `grasso_generic_200kw` | 1.30, 0.0035, −0.0022, 1e−5 | 60000, 190, −310, 0.45 | 0.11 | | (none) | 1.2, 0.003, −0.002, 1e−5 | 55000, 200, −300, 0.5 | 0.12 | Temps in polynomials: **SST / SDT** as used by the curve implementation (see source; typically °C in manufacturer fits — verify against `Polynomial2D` evaluation units in code). #### Calibration Z on compressors | Factor | Effect | |--------|--------| | `z_flow` | scales ṁ | | `z_flow_eco` | scales economizer ṁ (screw) | | `z_power` | scales shaft power | | `z_etav` | volumetric efficiency correction | Default all **1.0**. --- ### 2. Heat exchangers — heat transfer correlations | Correlation ID | Year | Purpose | Geometry | Wired in BPHX UI? | |----------------|------|---------|----------|-------------------| | **Longo2004** | 2004 | Evap / cond HTC (plates) | Brazed plate | **Yes** (default) | | **Shah1979** | 1979 | Condensation HTC | Tubes (also selectable) | **Yes** | | **Shah2021** | 2021 | Plate condensation | Plates | **Yes** | | Kandlikar1990 | 1990 | Evaporation HTC | Tubes | Registry / BPHX enum | | GungorWinterton1986 | 1986 | Evaporation HTC | Tubes | Registry | | Gnielinski1976 | 1976 | Single-phase turbulent Nu | Tubes | Registry | | DittusBoelter1930 | 1930 | Single-phase Nu (simple) | Tubes | Registry | | Ko2021 | 2021 | Low-GWP plates | Plates | Registry | | Friedel1979 | 1979 | Two-phase ΔP | Tubes/plates | Registry (ΔP) | **BPHX runtime path:** correlation → h → `UA ≈ h·A·z_ua` → **ε-NTU residuals** (not a full multi-zone MB model). **Condenser / Evaporator / FloodedEvaporator:** **no** plate correlation — **lumped UA** + phase-change ε-NTU: ``` ε = 1 − exp(−UA/C_sec) Q = ε · C_sec · ΔT_driving ``` **Generic HeatExchanger:** ε-NTU or LMTD (arrangement-dependent). **Economizer (internal):** LMTD-style two-stream. **MovingBoundaryHX:** multi-zone research path (not default production). --- ### 3. Pressure drop | Model | Formula / role | Components | |-------|----------------|------------| | Quadratic refrigerant | `ΔP = k · ṁ · \|ṁ\|` | Condenser, Evaporator (optional) | | BPHX friction | `ΔP = z_dp · 2·f·L·G²/(ρ·d_h)` (implementation path) | BPHX | | Friedel 1979 | two-phase ΔP (registry) | selection stack | | Pipe Darcy-style | f(L,D,ε,Re,ṁ) | Pipe | | Valve orifice | `ṁ = Kv·opening·√(2·ρ·ΔP)` | EXV orifice, BypassValve | --- ### 4. Pumps & fans — 1D polynomials ``` y = c0 + c1·x + c2·x² + … (Polynomial1D) ``` - **Pump:** head H(Q), efficiency η(Q); affinity laws for speed. - **Fan:** static pressure / power vs flow and speed. --- ### 5. Flow regularization (not a HTC correlation) Smooth `|ṁ|`, activity α, duty blend — keeps Newton finite at zero flow. See [flow-regularization.md](./flow-regularization.md). --- ## FR ### Compresseurs | Composant | Modèle | Formule clé | |-----------|--------|-------------| | Isentropic | Physique + η_is | h_dis isentropique corrigé ; ṁ = ρ V N η_vol | | Compressor | **AHRI 540** M1–M10 | ṁ(P,ρ,V,N) ; Ẇ(PR, T) | | Screw | **Polynôme bilinéaire SST/SDT** | ṁ, W = a00+a10·SST+a01·SDT+a11·SST·SDT | Presets vis : Bitzer / Grasso génériques 200 kW (coeffs dans CLI). ### Échangeurs — corrélations h | Corrélation | Usage | |-------------|--------| | Longo 2004 | BPHX défaut évap/cond plaques | | Shah 1979 / 2021 | condensation (tubes / plaques) | | Kandlikar, Gungor–Winterton | évaporation tubes (registre) | | Gnielinski, Dittus–Boelter | monophasique | | Ko 2021 | plaques low-GWP | | Friedel 1979 | ΔP biphasique | **Condenser / Evaporator / Flooded :** **UA global + ε-NTU** (pas Longo). ### Pompes / ventilateurs Polynômes 1D Q–H / Q–η + lois d’affinité. ### Calibration Tous les Z par défaut **1.0** (pas de correction).