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API · /firewood-api

Firewood Calculator API

healthy 4,795 Subscribers

Firewood maths as an API, computed locally and deterministically. The volume endpoint turns a wood-stack's length, height and depth (in feet or metres) into its volume in cubic feet and cubic metres, full cords, face cords and steres — a full cord being 128 cubic feet (a 4×4×8 ft stack) and a face cord being an 8×4 ft stack by the piece (log) length. The convert endpoint converts a quantity between cords, face cords, steres, cubic metres and cubic feet, using the piece length for the face-cord relationship. The heat endpoint estimates the heating value of a number of cords by wood species — returning the millions of BTU and the equivalent gallons of heating oil, therms of natural gas and kilowatt-hours — from a built-in table of typical seasoned-wood values (oak, hickory, maple, ash, birch, pine and more) or a custom figure. Everything is computed locally and deterministically, so it is instant and private. Heat values are typical seasoned figures (around 20% moisture) and vary with species, dryness and stove efficiency. Ideal for firewood sellers and delivery tools, heating and homestead apps, and forestry and woodlot calculators. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 endpoints. This is firewood volume and energy; for general volume or unit conversion use a unit-conversion API.

#firewood #cord #heating #forestry #wood #developer-tools
api.oanor.com/firewood-api
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Machine-readable spec so AI agents can integrate this API.

/api/firewood-api/openapi.json
/api/firewood-api/llms.txt

Discovery: GET /api/index.json lists every API.

Firewood Calculator API — live data on the oanor API marketplace

API health

healthy
Uptime
100.00%
Server probes · 24h
Avg latency
74 ms
Server probes · 24h
Subscribers
4,795
active
Total calls
76
last 7 days
status Full status page → · 12 probes/24h

Pricing

Pick a tier — billed monthly, cancel anytime.

Free

Free

  • 11,035 calls / month
  • 2 requests / second
  • Hard cap (429 above quota, no overage)
  • 11,035 calls/month
  • 2 req/sec
  • Volume + convert + heat
  • No credit card
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Starter

€12.55 /month

  • 20,650 calls / month
  • 8 requests / second
  • Hard cap (429 above quota, no overage)
  • 20.65k calls/month
  • 8 req/sec
  • Face cords + species heat values
  • Email support
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Pro

€32.45 /month

  • 256,500 calls / month
  • 20 requests / second
  • Hard cap (429 above quota, no overage)
  • 256.5k calls/month
  • 20 req/sec
  • Firewood / forestry pipelines
  • Priority support
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Mega

€70.45 /month

  • 1,325,000 calls / month
  • 50 requests / second
  • Hard cap (429 above quota, no overage)
  • 1.325M calls/month
  • 50 req/sec
  • Platform scale
  • Dedicated SLA
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Wood Moisture API — oanor API marketplace

Wood Moisture API

Wood-moisture maths as an API, computed locally and deterministically — the moisture-content, oven-dry-weight and drying-target numbers a woodworker, sawyer, kiln operator or firewood seller weighs timber by. The moisture-content endpoint takes a wet weight and an oven-dry weight and returns the moisture content on both conventions: the dry basis (water ÷ oven-dry weight × 100, the forestry and woodworking standard) and the wet/green basis (water ÷ wet weight × 100, common in agriculture and paper) — a board weighing 120 g that dries to 100 g holds 20 g of water and is 20 % dry-basis or 16.7 % wet-basis, so it always matters which is quoted. Above fibre saturation (~28–30 %) the wood is still shedding free water and has not begun to shrink. The dry-weight endpoint back-calculates the unchanging oven-dry weight from a current weight and a meter reading (wet ÷ (1 + MC/100)), the anchor for any drying plan because the wood substance does not change as water leaves. The target-weight endpoint uses that anchor to give the weight a piece should reach for a target moisture content and the water still to drive off — taking 120 g at 20 % down to 12 % means a 112 g target and 8 g of water to lose, so you simply weigh the piece down to that figure. Everything is computed locally and deterministically, so it is instant and private. Ideal for woodworking and lutherie tools, sawmill and kiln-drying apps, and firewood-seasoning calculators. Pure local computation — no key, no third-party service, instant. Mass-balance maths — pair it with a real moisture meter. 3 compute endpoints. For board feet use a lumber API; for a wood-stack volume a firewood API.

api.oanor.com/woodmoisture-api

 Wood Pellet API — oanor API marketplace

Wood Pellet API

Wood-pellet heating maths as an API, computed locally and deterministically — the consumption, heat-output and storage numbers a homeowner, installer or heating planner sizes a pellet system by. The consumption endpoint gives the pellets to meet a heat demand = the demand ÷ the usable heat per kilo, where usable = the calorific value × the boiler efficiency: ENplus wood pellets hold about 4.8 kWh/kg and a modern pellet boiler runs ~90 %, so each kilo delivers roughly 4.3 kWh — a 10,000 kWh annual demand then needs about 2.3 tonnes of pellets, around 154 fifteen-kilo bags or a bulk delivery. The heat-output endpoint inverts it: the usable heat from a mass = mass × calorific value × efficiency, so a tonne of ENplus pellets is about 4,800 kWh gross of which a 90 % boiler delivers ~4,320 kWh — the equivalent of roughly 480 litres of heating oil or 432 m³ of natural gas. The storage-volume endpoint sizes the hopper or silo: storage = the pellet mass ÷ the bulk (poured) density, about 650 kg/m³ for ENplus, so 2.3 tonnes fill roughly 3.6 m³ — size the store for the full delivery plus headroom for the fill pipe. Everything is computed locally and deterministically, so it is instant and private. Ideal for pellet-heating and installer tools, home-energy and quoting apps, and renewable-heat calculators. Pure local computation — no key, no third-party service, instant. Uses standard ENplus figures — set your own for a specific pellet grade. 3 compute endpoints. For cordwood use a firewood API; for propane/LPG a propane API.

api.oanor.com/pellet-api

 Radiant Floor API — oanor API marketplace

Radiant Floor API

Radiant-floor and hydronic heating maths as an API, computed locally and deterministically — the output, tubing and flow numbers an installer or DIYer designs a warm floor with. The output endpoint gives the heat a warm floor puts out: about 2 BTU/hr per square foot for every °F the floor surface is above the room, so an 85 °F floor in a 70 °F room delivers roughly 30 BTU/hr/ft² — about 9,000 BTU/hr over 300 ft², the comfort ceiling since the floor is held at ~85 °F. The tubing endpoint gives the tube and loops for an area at a spacing: field tubing = area × 12 ÷ spacing, so 300 ft² at 9-inch spacing needs 400 feet of tube, split into loops kept under ~300 feet (two 200-foot loops) so the pump can push them. The flow endpoint gives the loop flow rate for a heat load, GPM = load ÷ (500 × ΔT) where 500 is water's constant and ΔT is the supply-to-return drop — 9,000 BTU/hr at a 20 °F ΔT wants 0.9 GPM. Everything is computed locally and deterministically, so it is instant and private. Ideal for radiant-heating and plumbing apps, hydronic-design and PEX-layout tools, HVAC contractor calculators, and DIY-build sites. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 compute endpoints. Estimates — verify with a full heat-loss calc. For building load use an HVAC API; for pipe velocity use a flow-rate API.

api.oanor.com/radiant-api

 Pool Heating API — oanor API marketplace

Pool Heating API

Swimming-pool and spa heating maths as an API, computed locally and deterministically — the thermodynamics a pool owner, builder or service tech sizes a heater and budgets a heat-up with. The heat-time endpoint gives the hours to warm a body of water: energy = gallons × 8.34 lb/gal × the temperature rise in °F (that many BTU), divided by the heater's BTU/hr output — raising 20,000 gallons by 10 °F is 1,668,000 BTU, about 4.2 hours on a 400,000 BTU/hr gas heater before surface losses. The heater-size endpoint inverts it: the output you need to hit a temperature rise within a target time, so the same job in 24 hours wants only about 69,500 BTU/hr. The heat-pump endpoint gives a heat pump's electricity and cost — kWh = thermal BTU ÷ 3412 ÷ the COP (5–6 for pool units in mild weather) — so that 1,668,000 BTU costs about 89 kWh at a COP of 5.5, a fraction of resistance heat. Pass the temperature rise directly, or a current and target temperature. Everything is computed locally and deterministically, so it is instant and private. Ideal for pool-builder and service apps, heater-sizing and quote tools, spa and hot-tub calculators, and energy-comparison sites. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 compute endpoints. Ideal figures — add for surface and wind losses. For pool chemistry use a pool-chemistry API.

api.oanor.com/poolheat-api

Frequently asked questions

Quick answers about pricing, quotas, and integration.

How do I get an API key for Firewood Calculator API?
Sign up for free at oanor.com, generate an API key from the developer dashboard, and call Firewood Calculator API with the x-oanor-key header. No credit card needed for the free tier.
What's the rate limit for Firewood Calculator API?
Free tier allows 1 request per second. Paid plans scale up to 50 requests per second on the Mega tier. Hard limits return HTTP 429 above the quota — no surprise overage charges.
How much does Firewood Calculator API cost?
Firewood Calculator API has a free tier with 100 calls / month. Paid plans start at €12.55 / month with higher quotas and faster rate limits.
Can I cancel my subscription anytime?
Yes. Plans are billed monthly and you can cancel anytime from your billing dashboard. No long-term contracts and no cancellation fee.
Is Firewood Calculator API GDPR-compliant?
All requests to Firewood Calculator API go through our EU-based gateway. Your upstream API key never leaves our server and no personal data is shared with the upstream provider beyond the request you send.

Pick an endpoint from the list on the left to see its details and try it.

Code snippets

Sign up to get an API key, then call any path under your slug.

curl https://api.oanor.com/firewood-api/SOME_PATH \
  -H "x-oanor-key: oanor_test_..."
const res = await fetch("https://api.oanor.com/firewood-api/SOME_PATH", {
  headers: { "x-oanor-key": "oanor_test_..." }
});
const data = await res.json();
$ch = curl_init("https://api.oanor.com/firewood-api/SOME_PATH");
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
curl_setopt($ch, CURLOPT_HTTPHEADER, ["x-oanor-key: oanor_test_..."]);
$response = curl_exec($ch);
import requests
r = requests.get(
    "https://api.oanor.com/firewood-api/SOME_PATH",
    headers={"x-oanor-key": "oanor_test_..."},
)
print(r.json())

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