This chart shows Tetrahydrofuran price assessments, in US Dollar per metric ton (USD/mt), across 3 key markets from November 2024 through November 2025:
- Tetrahydrofuran, US (United States): Tetrahydrofuran, export transaction price, fob, United States
- Tetrahydrofuran, CN (China): Tetrahydrofuran, domestic spot price, exw, China
- Tetrahydrofuran, SEA (Southeast Asia): Tetrahydrofuran, spot price, cfr, India (netforward from fob China)
About Tetrahydrofuran Prices
Tetrahydrofuran Price Outlook. The price of Tetrahydrofuran (United States) decreased during November 2025 to 2,210 USD per metric ton, which represents a considerable decline of 9% compared to the previous month’s value. On a year-over-year basis, the prices of Tetrahydrofuran (United States) increased significantly by 71%. Meanwhile, the average price of Tetrahydrofuran (China) amounted to 1,450 USD per metric ton, from 1,780 USD per metric ton one year earlier. On a month-over-month basis, the price of Tetrahydrofuran (China) is 1% lower than the price one month before.
The price of Tetrahydrofuran (Southeast Asia) declined slightly throughout November 2025, reaching 1,460 USD per metric ton. The price is 1% lower than the average price in the previous month and 21% lower than the average price one year before.
About Tetrahydrofuran Pricing Data. Tetrahydrofuran prices are provided as an annual subscription where subscribers have access to reliable pricing data of 225 commodities worldwide.
Intratec's methodology employs a structured big data strategy that utilizes advanced technologies to extract publicly available data from primary sources such as governmental trade records, statistics bureaus, and international agencies.
This data is then processed through mathematical models to generate reliable assessments, published at the very beginning of each month. To better understand the data provided check Intratec Primary Commodity Prices Methodology.
Data Delivery Methods
Intratec Primary Commodity Prices
Track current monthly prices, historical series, and short-term forecasts for 225 commodities across multiple industries and locations.
225 Commodities Covered
Monthly price data for commodities across fertilizers, olefins, aromatics, alcohols, inorganic chemicals, polymers, and metals.
Current Prices & Forecasts
Access current monthly prices, 10 years of historical data, and rolling 6-month forecasts for selected commodities.
Multiple Locations
Compare commodity prices across countries and world regions, with data available in different currencies and units.
Excel, Power BI & API
Access price data through online charts, Excel Add-In, Power BI dashboards, or API integrations.
About Tetrahydrofuran
About Tetrahydrofuran. Tetrahydrofuran (a.k.a. THF, Oxolane) is an organic compound, in the cyclic ether class. It is a colorless, odorless liquid, miscible with water and most organic solvents. It is an exceptionally versatile solvent, due to its high polarity. Most of its applications are in the chemical industry, especially in polymer productionand as a solvent.
THF is mainly produced by the process developed by Reppe, in which acetylene and formaldehyde are reacted, followed by hydrogenation and dehydration. This method has near 100% yields under atmospheric pressure with water as a by-product. Other methods include furfural decarbonylation; butadiene oxydation; and propylene oxide isomerization.
Tetrahydrofuran Handling. Tetrahydrofuran is flammable (boiling point 66°C) and should be transported in polyethylene or steel containers (or other non-reactive acid/solvent bottle carriers). For transportation through piping, welded pipes are preferable; special attention should be directed toward the seals in pumps and valves. THF can form peroxides in air, and due to this, a stabilizer, such as 2,6-di-tert-butyl-p-cresol (BHT) must be added to it. Storage should be made preferably in closed containers, in cool, dry, well-ventilated area, out of direct sunlight. If inhaled could cause central nervous system impairment, kidney damage and has been labeled as a potential carcinogen.
Tetrahydrofuran Production. Raw materials and the respective production processes employed in the manufacturing of Tetrahydrofuran are listed below.
- 1,4-Butanediol (acid-catalyzed dehydration),
- n-Butane (oxidation, followed by catalytic hydrogenation),
- Allyl alcohol (hydroformylation, followed by hydrogenation)
Tetrahydrofuran Uses. The uses and applications of Tetrahydrofuran may vary according to its specification. The main forms of Tetrahydrofuran are HPLC grade (99.9 wt% minimum purity, inhibitor-free); and technical grade (90 wt% minimum purity).