diff --git a/package.json b/package.json
index b67938f..50bec80 100644
--- a/package.json
+++ b/package.json
@@ -16,9 +16,12 @@
"license": "SEE LICENSE",
"author": "P.R. van der Wilt",
"main": "reactor.js",
- "scripts": {
- "test": "node --test test/basic/*.test.js test/integration/*.test.js test/edge/*.test.js"
- },
+ "scripts": {
+ "test": "node --test test/basic/*.test.js test/integration/*.test.js test/edge/*.test.js",
+ "wiki:contract": "node ../generalFunctions/scripts/wikiGen.js contract ./src/commands/index.js --write ./wiki/Home.md",
+ "wiki:datamodel": "node ../generalFunctions/scripts/wikiGen.js datamodel ./src/specificClass.js --write ./wiki/Home.md",
+ "wiki:all": "npm run wiki:contract && npm run wiki:datamodel"
+ },
"node-red": {
"nodes": {
"reactor": "reactor.js",
diff --git a/wiki/Home.md b/wiki/Home.md
new file mode 100644
index 0000000..4f2177f
--- /dev/null
+++ b/wiki/Home.md
@@ -0,0 +1,285 @@
+# reactor
+
+> **Reflects code as of `b8247fc` · regenerated `2026-05-11` via `npm run wiki:all`**
+> If this banner is stale, the page may be out of date. Treat as informative, not authoritative.
+
+## 1. What this node is
+
+**reactor** is an S88 Unit that wraps an ASM3 biological-process engine — either a CSTR (fully mixed tank) or a PFR (plug-flow with axial dispersion). It integrates 13 species (S_O, S_NH, X_H, X_TS, …) and emits the effluent vector each tick. Drives a settler downstream and accepts a recirculation pump child.
+
+## 2. Position in the platform
+
+```mermaid
+flowchart LR
+ upstream[reactor
upstream
Unit]:::unit
+ reactor[reactor
Unit]:::unit
+ settler[settler
downstream
Unit]:::unit
+ pump[rotatingMachine
downstream
Equipment]:::equip
+ tsens[measurement
temperature
atequipment]:::ctrl
+ osens[measurement
oxygen
position]:::ctrl
+
+ upstream -.stateChange.-> reactor
+ reactor -->|Fluent inlet=0| settler
+ pump -->|child.register downstream| reactor
+ tsens -->|temperature.measured.atequipment| reactor
+ osens -->|quantity (oxygen).measured.<position>| reactor
+ classDef unit fill:#50a8d9,color:#000
+ classDef equip fill:#86bbdd,color:#000
+ classDef ctrl fill:#a9daee,color:#000
+```
+
+S88 colours: Unit `#50a8d9`, Equipment `#86bbdd`, Control Module `#a9daee`. Source of truth: `.claude/rules/node-red-flow-layout.md`.
+
+## 3. Capability matrix
+
+| Capability | Status | Notes |
+|---|---|---|
+| ASM3 13-species ODE integration | ✅ | CSTR + PFR engines under `kinetics/`. |
+| CSTR (fully mixed) | ✅ | Single concentration vector per tick. |
+| PFR (axial discretization) | ✅ | `resolution_L` grid cells; emits `GridProfile` alongside `Fluent`. |
+| Multi-inlet mixing | ✅ | `n_inlets`; each inlet receives its own `data.fluent` with `inlet` index. |
+| Temperature reconcile from measurement | ✅ | `temperature.measured.atEquipment` writes `engine.temperature`. |
+| Oxygen reconcile (PFR) | ✅ | `quantity (oxygen).measured.` maps to nearest grid cell. |
+| KLa-driven aeration | ✅ | `reactor.kla` > 0 enables internal mass transfer; falls back to `data.otr`. |
+| Speed-up factor (sim time) | ✅ | `reactor.speedUpFactor` accelerates wall-clock → process time. |
+| Dispersion override (PFR) | ✅ | `data.dispersion` updates axial `D`. |
+| Hot-swap engine type | ❌ | `reactor_type` is read once in `configure()`. |
+
+## 4. Code map
+
+```mermaid
+flowchart TB
+ subgraph nodeRED["nodeClass.js — adapter (BaseNodeAdapter)"]
+ nc["buildDomainConfig()
static DomainClass = Reactor
static commands"]
+ end
+ subgraph domain["specificClass.js — orchestrator (BaseDomain)"]
+ sc["Reactor.configure()
flatten config → build engine
ChildRouter rules"]
+ end
+ subgraph kinetics["src/kinetics/"]
+ be["baseEngine.js
shared ASM3 rate vector"]
+ cstr["cstr.js
0-D integrator"]
+ pfr["pfr.js
spatial discretization + dispersion"]
+ end
+ subgraph commands["src/commands/"]
+ cmds["index.js + handlers.js
6 input topics"]
+ end
+ sc --> be
+ sc --> cstr
+ sc --> pfr
+ nc --> sc
+ nc --> cmds
+```
+
+| Module | Owns | Read first if you're changing… |
+|---|---|---|
+| `kinetics/baseEngine.js` | ASM3 stoichiometry + rate vector + species list. | Stoichiometric matrix, kinetic constants. |
+| `kinetics/cstr.js` | 0-D CSTR integrator + `_connectMeasurement` + `_connectReactor`. | Mixed-tank behaviour, child wiring. |
+| `kinetics/pfr.js` | Axial discretization, dispersion, grid profile emission. | PFR-specific behaviour, grid math. |
+| `commands/` | 6 input descriptors + handlers (clock, fluent, OTR, temperature, dispersion, child). | Inbound topic API, alias deprecation. |
+| `reaction_modules/` | Optional plug-in reaction modules (legacy — not yet refactored). | Adding new bio-process modules. |
+| `additional_nodes/` | Sibling Node-RED nodes (`recirculation-pump`, `settling-basin`) shipped from this repo. | Cross-node deploy in same package. |
+
+## 5. Topic contract
+
+> **Auto-generated** from `src/commands/index.js`. Do NOT hand-edit between the markers. Re-run `npm run wiki:contract`.
+
+
+
+| Canonical topic | Aliases | Payload | Effect |
+|---|---|---|---|
+| `data.clock` | `clock` | `any` | Pushes a value into the node's measurement stream. |
+| `data.fluent` | `Fluent` | `object` | Pushes a value into the node's measurement stream. |
+| `data.otr` | `OTR` | `any` | Pushes a value into the node's measurement stream. |
+| `data.temperature` | `Temperature` | `any` | Pushes a value into the node's measurement stream. |
+| `data.dispersion` | `Dispersion` | `any` | Pushes a value into the node's measurement stream. |
+| `child.register` | `registerChild` | `any` | Parent/child plumbing — registers or unregisters a child node. |
+
+
+
+## 6. Child registration
+
+```mermaid
+flowchart LR
+ subgraph kids["accepted children (softwareType)"]
+ m_t["measurement
temperature"]:::ctrl
+ m_o["measurement
quantity (oxygen)"]:::ctrl
+ r_up["reactor
upstream"]:::unit
+ end
+ m_t -->|temperature.measured.atEquipment| h_meas[engine._connectMeasurement]
+ m_o -->|quantity (oxygen).measured.<pos>| h_meas
+ r_up -.stateChange.-> h_react[engine._connectReactor]
+ h_meas --> reconcile[reconcile T / O2 into engine state]
+ h_react --> pull[pull upstream effluent → Fs/Cs_in]
+ classDef ctrl fill:#a9daee,color:#000
+ classDef unit fill:#50a8d9,color:#000
+```
+
+| softwareType | filter | wired to | side-effect |
+|---|---|---|---|
+| `measurement` | any | `engine._connectMeasurement` | `temperature.measured.atEquipment` → `engine.temperature`. PFR additionally honours `quantity (oxygen).measured.` → nearest grid cell DO. |
+| `reactor` | upstream | `engine._connectReactor` | Subscribes to upstream reactor's `stateChange`; pulls effluent into `Fs[0]` / `Cs_in[0]` before next integration step. |
+
+## 7. Lifecycle — what one `data.clock` advance does
+
+```mermaid
+sequenceDiagram
+ participant clock as clock injector
+ participant reactor as reactor
+ participant engine as kinetics engine
+ participant downstream as settler / next reactor
+ participant out as Port-0 output
+
+ clock->>reactor: data.clock { timestamp }
+ reactor->>engine: updateState(timestamp)
+ Note over engine: n_iter steps,
each timeStep × speedUpFactor
+ engine->>engine: integrate ASM3 rates
+ engine->>engine: emit 'stateChange'
+ reactor->>reactor: notifyOutputChanged
+ reactor->>out: Fluent { inlet=0, F, C[13] }
+ alt PFR
+ reactor->>out: GridProfile { grid, n_x, d_x, … }
+ end
+ out->>downstream: Fluent envelope
+```
+
+`stateChange` re-emits on `reactor.emitter` (BaseDomain emitter) so downstream reactors / settlers can listen. The effluent emission goes through the BaseNodeAdapter tick pipeline.
+
+## 8. Data model — `getOutput()`
+
+Port-0 process payload is the `Fluent` envelope (+ optional `GridProfile` for PFR). Port-1 telemetry is the scalar snapshot below.
+
+
+
+| Key | Type | Unit | Sample |
+|---|---|---|---|
+| `S_HCO` | number | — | `5` |
+| `S_I` | number | — | `30` |
+| `S_N2` | number | — | `0` |
+| `S_NH` | number | — | `25` |
+| `S_NO` | number | — | `0` |
+| `S_O` | number | — | `0` |
+| `S_S` | number | — | `70` |
+| `X_A` | number | — | `200` |
+| `X_H` | number | — | `2000` |
+| `X_I` | number | — | `1000` |
+| `X_S` | number | — | `100` |
+| `X_STO` | number | — | `0` |
+| `X_TS` | number | — | `3500` |
+| `flow_total` | number | — | `0` |
+| `temperature` | number | — | `20` |
+
+
+
+**Concrete sample** (CSTR mid-integration, nitrifying):
+
+```json
+{
+ "flow_total": 1000,
+ "temperature": 15.2,
+ "S_O": 2.1,
+ "S_I": 30,
+ "S_S": 12.4,
+ "S_NH": 0.8,
+ "S_N2": 4.3,
+ "S_NO": 18.6,
+ "S_HCO": 4.2,
+ "X_I": 1050,
+ "X_S": 65,
+ "X_H": 2150,
+ "X_STO": 4.5,
+ "X_A": 215,
+ "X_TS": 3680
+}
+```
+
+Species ordering follows ASM3: indices 0–6 are soluble, 7–12 are particulate. `flow_total` is the effluent flow (m³/d); the reactor uses days as the time unit internally.
+
+## 9. Configuration — editor form ↔ config keys
+
+```mermaid
+flowchart TB
+ subgraph editor["Node-RED editor form"]
+ f1[Reactor type CSTR / PFR]
+ f2[Volume m3]
+ f3[Length m + resolution]
+ f4[Alpha dispersion]
+ f5[KLa 1/h]
+ f6[Time step + speed-up]
+ f7[Initial state 13 species]
+ end
+ subgraph config["Domain config slice"]
+ c1[reactor.reactor_type]
+ c2[reactor.volume]
+ c3[reactor.length
reactor.resolution_L]
+ c4[reactor.alpha]
+ c5[reactor.kla]
+ c6[reactor.timeStep
reactor.speedUpFactor]
+ c7[initialState.* ASM3 keys]
+ end
+ f1 --> c1
+ f2 --> c2
+ f3 --> c3
+ f4 --> c4
+ f5 --> c5
+ f6 --> c6
+ f7 --> c7
+```
+
+| Form field | Config key | Default | Range | Where used |
+|---|---|---|---|---|
+| Reactor type | `reactor.reactor_type` | `CSTR` | enum: `CSTR` / `PFR` | engine selection in `_buildEngine` |
+| Volume (m³) | `reactor.volume` | `1000` | > 0 | residence time, mass balance |
+| Length (m) | `reactor.length` | `10` | > 0 | PFR only — axial extent |
+| Resolution L | `reactor.resolution_L` | `10` | ≥ 1 | PFR grid cell count |
+| Alpha | `reactor.alpha` | `0.5` | 0–1 | dispersion vs plug-flow blend |
+| Inlets | `reactor.n_inlets` | `1` | ≥ 1 | `Fs[]` / `Cs_in[]` array sizes |
+| KLa (1/h) | `reactor.kla` | `0` | ≥ 0 | aeration mass transfer (NaN → use `data.otr`) |
+| Time step (h) | `reactor.timeStep` | `0.001` | ≥ 0.0001 | integrator inner step |
+| Speed-up factor | `reactor.speedUpFactor` | `1` | ≥ 1 | wall-clock → process-time multiplier |
+| Initial S_NH | `initialState.S_NH` | `25` | ≥ 0 (mg/L) | starting ammonium |
+| Initial X_H | `initialState.X_H` | `2000` | ≥ 0 (mg/L) | starting heterotroph biomass |
+| Initial X_A | `initialState.X_A` | `200` | ≥ 0 (mg/L) | starting autotroph biomass — must be ≥ ~50 for nitrification |
+| Initial X_TS | `initialState.X_TS` | `3500` | ≥ 0 (mg/L) | starting TSS — drives settler split |
+
+## 10. State chart
+
+Skipped — reactor has no FSM. It runs continuous-state ODE integration; the engine's only stateful event is `stateChange`, fired after every successful integration advance. See section 7 for the integration sequence.
+
+## 11. Examples
+
+| Tier | File | What it shows | Status |
+|---|---|---|---|
+| Basic | `examples/basic.flow.json` | CSTR with one inlet, watch `Fluent` effluent | ✅ in repo |
+| Integration | `examples/integration.flow.json` | upstream reactor → reactor → settler chain | ✅ in repo |
+| Edge | `examples/edge.flow.json` | PFR with dispersion + multi-inlet | ✅ in repo |
+| Companions | `additional_nodes/*` | recirculation-pump + settling-basin Node-RED nodes shipped from this repo | ✅ in repo |
+
+One screenshot per tier where helpful. PNG ≤ 200 KB under `wiki/_partial-screenshots/reactor/`.
+
+## 12. Debug recipes
+
+| Symptom | First thing to check | Where to look |
+|---|---|---|
+| Nitrification doesn't proceed (S_NH stays high) | `initialState.X_A` must be ≥ ~50 mg/L. Defaulting to `0.001` (a known footgun) means no autotrophs. | `generalFunctions/src/configs/reactor.json` |
+| `Fluent` effluent flow zero | No `data.clock` ticks arriving, or `data.fluent` never set `Fs[0] > 0`. | `commands/handlers.js`, engine `setInfluent` |
+| PFR `GridProfile` not emitted | `reactor_type` set to `CSTR` — only PFR emits grid. | `_buildEngine` switch |
+| Settler downstream not updating | `stateChange` event listener path: settler must subscribe to `reactor.emitter`, NOT `reactor.measurements.emitter`. | settler `_connectReactor` |
+| Temperature reconcile silently ignored | Child measurement's `asset.type` not `temperature` exactly, or `positionVsParent` not `atEquipment`. | `engine._connectMeasurement` |
+| Integrator slow / stalls | `reactor.timeStep` too small for `speedUpFactor`. Internal `n_iter` count blows up. | `engine.updateState` |
+| `wiki:datamodel` script slow / hangs | `mathjs` cold-start ~13 s; instantiation depends on it transitively. See known-limitations row 1. | `kinetics/baseEngine.js` |
+
+## 13. When you would NOT use this node
+
+- Use reactor for **ASM3 biological treatment** modelling (activated sludge, nitrification, denitrification). For aerobic-only or simpler kinetics, the ASM3 species vector is overkill.
+- Don't use reactor for a passive equalisation tank — the kinetics engines assume reactions are happening.
+- Skip reactor when you only need a residence-time delay; a simple buffer node is lighter and doesn't require `mathjs`.
+
+## 14. Known limitations / current issues
+
+| # | Issue | Tracked in |
+|---|---|---|
+| 1 | `mathjs` cold-start adds ~13 s to first `require()` — `wiki:datamodel` auto-gen may time out on the 60 s wrapper. Falls back to the hand-curated `concrete sample` block. | `.claude/refactor/OPEN_QUESTIONS.md` — "mathjs slow load" |
+| 2 | `initialState.X_A` default of `200` mg/L is correct; older config snapshots used `0.001` which silently disabled nitrification. Verify on every new deploy. | `generalFunctions/src/configs/reactor.json` |
+| 3 | `getEffluent` shape historically varied (array vs single envelope) — settler's `_connectReactor` tolerates both. Don't break the contract without updating settler. | `nodes/settler/src/specificClass.js → _connectReactor` |
+| 4 | `additional_nodes/recirculation-pump` and `settling-basin` are legacy companions — not yet refactored to BaseDomain. | P6.5 follow-up |
+| 5 | `reaction_modules/` is a legacy plug-in directory not consumed by the current engines. Removal pending. | P6.5 follow-up |