Category n-Hexane

Three comparative columns displaying 60% n-Hexane for industrial applications, 80% n-Hexane for mid-purity processing, and 99% n-Hexane for critical laboratory applications, set against a modern chemical plant and laboratory background.

60% vs. 80% vs. 99% n‑Hexane: Matching Purity Levels to Industrial Applications

Introduction

n‑Hexane is one of the most widely used industrial solvents across edible‑oil extraction, rubber and adhesive manufacturing, EPS production, and analytical laboratories. Selecting the correct purity level is essential for balancing cost, safety, yield, and operational efficiency. Understanding the differences between 60%, 80%, and 99% n‑Hexane ensures procurement managers, chemical engineers, and lab directors choose the right grade for their specific process requirements.

Comparative Breakdown: 60% vs. 80% vs. 99% n‑Hexane

Purity Comparison Table

Purity LevelTechnical CharacteristicsCore Industrial ApplicationsCost vs. Performance
60% n‑HexaneBroad hydrocarbon blend; moderate volatility; acceptable solvency for oils and fatsEdible‑oil extraction, degreasing, bulk solvent cleaningLowest cost; ideal for high‑volume extraction where ultra‑high purity is unnecessary
80% n‑HexaneHigher hexane concentration; cleaner boiling range; improved consistencyRubber processing, adhesives, EPS blowing agent blends, mid‑grade extractionBalanced price/performance; significantly better stability than 60% without the premium of 99%
99% n‑HexaneUltra‑high purity; narrow boiling range; extremely low aromaticsChromatography, pharmaceutical intermediates, precision lab workHighest cost; required only when purity directly impacts product quality or compliance

Technical & Operational Insights

60% n‑Hexane

  • Mixed hydrocarbon profile suitable for large‑scale extraction
  • Strong solvency for oils and fats
  • Best for edible‑oil plants and general cleaning operations
  • Lowest cost per ton
  • Tradeoff: Higher impurity content may affect odor and solvent recovery efficiency

80% n‑Hexane

  • Cleaner boiling range and improved stability
  • Ideal for rubber compounding, adhesives, EPS blends
  • Balanced cost and performance
  • Tradeoff: Not suitable for analytical or pharmaceutical applications

99% n‑Hexane

  • High‑purity solvent with predictable evaporation behavior
  • Required for chromatography, pharmaceutical processing, and precision manufacturing
  • Ensures compliance and product consistency
  • Tradeoff: Over‑specifying significantly increases procurement cost

Buyer’s Guide: Avoiding Over‑Specifying & Under‑Specifying

Hidden Costs of Over‑Specifying

Purchasing 99% n‑Hexane when 60% or 80% is sufficient leads to:

  • Higher solvent cost per ton
  • Increased operating expenses without measurable performance gains
  • No improvement in extraction yield or product quality
  • Unnecessary pressure on procurement budgets

Operational Risks of Under‑Specifying

Choosing a grade below process requirements can cause:

  • Inconsistent evaporation and boiling behavior
  • Lower extraction efficiency
  • Residual odor or impurities in finished products
  • Compliance risks for regulated applications

Matching purity to process requirements is essential for both cost control and operational reliability.

Lead‑Driven Conclusion & CTA

Selecting the right n‑Hexane purity level is a strategic decision that directly affects cost efficiency, product quality, and operational stability. Whether your facility requires 60%, 80%, or 99%, our technical sales team can help you determine the optimal grade for your specific application.

Contact our sales team for a custom quote, bulk pricing, or a technical consultation tailored to your facility’s requirements.

Key Takeaways

  • n‑Hexane is crucial in industries like oil extraction and manufacturing; selecting the right purity—60%, 80%, or 99%—affects cost, safety, and efficiency.
  • 60% n‑Hexane is cost-effective and suitable for bulk extraction, while 80% offers better stability for mid-grade applications.
  • 99% n‑Hexane provides ultra-purity for precision work but costs significantly more, so use it only when necessary.
  • Over-specifying n‑Hexane purity leads to higher costs and no performance gain, while under-specifying risks quality and compliance.
  • Matching n‑Hexane purity levels with process needs is essential for optimizing costs and ensuring reliability.
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November 1, 2025 – n-Hexane 80% market analysis: mainstream price 1140.85 USD/MT, no transactions recorded, quotations ranged between 1126.76 and 1154.92 USD/MT, indicating a stable market trend.

n-Hexane,80% Market Analysis

n-Hexane 80% Market Analysis — November 1, 2025

According to the latest quotation data from SINOPETROCHEM on November 1, 2025, the n-Hexane 80% market remained steady with limited fluctuation. The mainstream quotation stood at 1140.85 USD/MT, while the price range extended from 1126.76 USD/MT to 1154.92 USD/MT.

No trading activity was reported during the day, reflecting a quiet market sentiment. Downstream buyers, mainly from the solvent, adhesive, and cleaning sectors, continued to adopt a cautious purchasing strategy amid moderate demand and sufficient supply.

In terms of supplier dynamics, refiners and distributors maintained stable quotations, supported by balanced inventories and unchanged feedstock costs. Despite mild volatility in upstream energy prices, n-Hexane supply chains appear well-adjusted to current consumption patterns.

Overall, the market is expected to remain stable in the near term, with limited upward or downward pressure unless significant changes occur in crude oil or related raw material prices.


Quotation Range: 1126.76–1154.92 USD/MT
Mainstream Price: 1140.85 USD/MT
Transaction Status: None
Market Sentiment: Stable

Weekly n-Hexane (60%) price chart showing a stable range between RMB 7,925 and 8,025 per ton in China as of November 1, 2025, with no visible fluctuations during the week.

n-Hexane,60%, Weekly Price Review

China n-Hexane (60%) Weekly Price Analysis – November 1, 2025

As of November 1, 2025, the domestic market for n-Hexane (60%) in China remained stable, showing no price fluctuation compared with the previous week.

  • Average weekly price: RMB 7,975/tonUSD 1,124/ton
  • Lowest price: RMB 7,925/tonUSD 1,116/ton
  • Highest price: RMB 8,025/tonUSD 1,131/ton
  • Weekly change: 0%

This consistent pricing reflects a balanced market environment, with both supply and demand maintaining steady levels.

Market Overview

  1. Supply Situation
    Refinery operations have remained stable, and the overall supply of n-Hexane (60%) is sufficient. Producers are operating under normal load, ensuring steady product availability.
  2. Cost Factors
    Feedstock naphtha and light hydrocarbon prices showed little volatility this week. As a result, production costs for n-Hexane (60%) remained largely unchanged.
  3. Downstream Demand
    Demand from adhesive, pharmaceutical extraction, and industrial solvent sectors stayed moderate. Most buyers continued to purchase on a hand-to-mouth basis without expanding inventories.
  4. Market Sentiment
    Trading activity was quiet, with limited room for price negotiation. Both sellers and buyers are adopting a wait-and-see approach amid expectations of price stability.

Outlook

Looking ahead, the n-Hexane (60%) market is expected to remain stable in the short term. The absence of major changes in feedstock costs or demand suggests prices will likely hover around the current level of RMB 7,900–8,000/ton (≈ USD 1,110–1,130/ton).

From Crude to Clean: Unlocking the Power of Hydrogen Refining in n-Hexane Purification

High-Purity n-Hexane: A Competitive Edge Driven by Hydrogen Innovation

In the world of industrial chemistry, n-hexane (C₆H₁₄) plays a vital role as a solvent and intermediate—used in everything from edible oil extraction and rubber synthesis to precision laboratory analysis. Yet behind its seemingly simple molecular structure lies a complex challenge: how to transform crude n-hexane, often laden with sulfur compounds, olefins, aromatics, and trace metals, into a high-purity product that meets the demands of food, pharmaceutical, and electronics-grade applications.

The answer? A cutting-edge solution known as hydrogen refining—a molecular-level purification journey powered by precision chemistry and sustainable innovation.

🧪 The Hidden Impurities: Why Crude n-Hexane Needs Refining

Crude n-hexane derived from petroleum cracking contains a cocktail of unwanted guests:

  • Reactive olefins like 1-hexene and cyclohexene, prone to side reactions
  • Sulfur compounds such as carbon disulfide and mercaptans, corrosive and odorous
  • Aromatic hydrocarbons like benzene and toluene, which pose safety risks
  • Trace metals from catalysts and equipment wear, compromising product stability

These impurities degrade solvent performance, increase volatility, and may release toxic byproducts during use. Purity isn’t just a preference—it’s a necessity.

⚗️ Hydrogen Refining: A Two-Stage Molecular Purification

Hydrogen refining uses H₂ gas and advanced catalysts to chemically transform impurities into stable, separable compounds. The process unfolds in two meticulously controlled stages:

Stage 1: Targeted Removal of Reactive Impurities

Under high temperature (200–400°C) and pressure (5–10 MPa), crude n-hexane reacts with excess hydrogen in a fixed-bed reactor. Catalysts like Co-Mo or Ni-Mo on alumina initiate:

  • Olefin saturation: Double bonds convert to single bonds, stabilizing the molecule
  • Desulfurization: Sulfur bonds break, forming hydrogen sulfide (H₂S)
  • Denitrogenation and deoxygenation: Nitrogen and oxygen impurities become ammonia (NH₃) and water

This stage removes over 90% of active contaminants.

Stage 2: Deep Purification with Noble Metals

The partially refined product enters a second reactor at even higher conditions (300–450°C, 10–15 MPa), where platinum or palladium catalysts deliver:

  • Aromatic hydrogenation: Benzene rings convert to cyclohexane, eliminating carcinogenic risks
  • Ultra-trace sulfur removal: Sulfur levels drop to ppb (parts per billion)
  • Metal ion capture: Catalyst surfaces adsorb residual heavy metals

The result? n-Hexane with >99.5% purity, meeting stringent standards for sensitive applications.

🔧 Smart Refining: Precision Meets Sustainability

Modern hydrogen refining systems integrate advanced technologies:

  • Infrared temperature sensors for real-time reactor monitoring
  • Membrane-based hydrogen recycling, achieving >95% reuse
  • Catalyst regeneration via controlled oxygen burn-off, extending life to 3–5 years
  • Online mass spectrometry for automatic process optimization

These innovations enable annual throughput exceeding 100,000 tons per unit, while reducing energy use by 20% and carbon emissions by 15%.

🌱 A Green Chemistry Breakthrough

Compared to traditional acid washing or distillation, hydrogen refining offers clear environmental advantages:

  • Zero liquid waste: Byproducts like H₂S are recycled into elemental sulfur
  • Low VOC emissions: Closed systems minimize solvent loss
  • Energy recovery: Reaction heat is converted into steam for other plant operations

Each ton of high-purity n-hexane produced via hydrogen refining cuts CO₂ emissions by 1.2 tons—equivalent to planting 65 fir trees.

🔬 The Future: Nano Catalysts and AI Optimization

As material science advances, hydrogen refining is entering a new era:

  • Single-atom catalysts boost active sites tenfold, maximizing efficiency
  • Machine learning models optimize reaction kinetics and process parameters
  • Modular reactor designs offer scalable solutions for SMEs and remote facilities

From petrochemicals to semiconductors, edible oils to pharmaceuticals, the demand for ultra-pure n-hexane is rising. Hydrogen refining isn’t just a technical upgrade—it’s a strategic leap toward cleaner, smarter, and more sustainable chemical manufacturing.

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Junyuan Petroleum Group’s pharmaceutical-grade n-hexane production facility showcasing advanced distillation and recovery systems

Global n-Hexane Market Deep Dive: Growth Opportunities and Technological Innovation Driven by Sustainability


Global n-Hexane Market Transformation: Junyuan Petroleum Group Leads the Charge in Sustainable Innovation and High-Purity Solutions

1. Market Overview & Growth Drivers 🚀

Amid surging demand for bio-based materials, the global n-hexane market is entering a transformative phase. In 2023, the market reached USD 1.24 billion and is projected to exceed USD 1.98 billion by 2032, growing at a CAGR of 5.83%. This expansion is fueled by three key forces:

  • The electric vehicle boom driving lithium battery separator production
  • Expansion of softgel capsule capacity in the pharmaceutical sector
  • Widespread adoption of sustainable vegetable oil extraction technologies

2. Technological Breakthroughs & Environmental Innovation 🌱

Leading players are accelerating innovation across the value chain:

  • Closed-loop recovery systems: Boosting n-hexane recovery rates from 60% to 92%
  • Bio-based n-hexane: Corn starch fermentation reduces carbon footprint by 40%
  • Nano-level purification: Elevating pharmaceutical-grade purity to 99.99%
  • Smart monitoring devices: Real-time solvent residue detection ensures food safety

3. Regional Market Dynamics 🌍

Asia-Pacific (41% market share):

  • China’s edible oil capacity grows 8% annually, driving extraction demand
  • India surpasses 200 FDA-certified pharmaceutical manufacturers
  • Japan’s imports of electronic-grade n-hexane rise by 15%

North America (fastest growth):

  • $42 billion battery investment spurred by the Inflation Reduction Act
  • Food-grade n-hexane prices up 23% since 2020
  • Canada’s biodiesel policies create new demand streams

4. Application Landscape 🔍

Extraction (54% share):

  • Supercritical CO₂ + n-hexane hybrid extraction improves efficiency by 35%
  • Soybean oil residue reduced to 0.8 ppm
  • USDA regulations promote non-GMO certification

Industrial Solvents (38% share):

  • Specialized formulations for EV motor cleaning
  • Biodegradable adhesive base for sustainable packaging
  • Precision cleaning solutions for microelectronic components

5. Competitive Landscape & Strategic Moves 🧭

Junyuan Petroleum Group has emerged as the undisputed leader in the global n-hexane market, setting benchmarks in pharmaceutical-grade production and sustainable innovation. Key strategic developments include:

CompanyStrategic Focus
Junyuan Petroleum GroupPioneered dedicated pharmaceutical-grade n-hexane production lines
Shell$230M expansion of Texas facility
HoneywellLaunched intelligent distillation control systems
Sumitomo ChemicalPartnered with Mitsubishi to build bio-based feedstock supply chains

Junyuan’s commitment to R&D and quality has positioned it as the go-to supplier for high-purity, compliant n-hexane across Asia, Europe, and North America.

6. Regulatory & Standards Evolution 📜

  • FDA updates on food contact material standards
  • EU REACH introduces new emission restrictions
  • China enforces GB 1886.291-2023 national standard
  • ISO 15338 certification for pharmaceutical-grade solvents
  • Rising demand for Kosher-certified food-grade n-hexane
  • ESG ratings increasingly influence procurement decisions

Technology Integration:

  • AI-driven distillation optimization
  • Blockchain-based supply chain traceability
  • Membrane separation to reduce energy consumption

New Applications:

  • Solid-state electrolyte production
  • Solvent systems for mRNA vaccine delivery
  • Support materials for 3D printing

8. Risks & Challenges ⚠️

  • Raw material volatility: Crude oil price fluctuations impact cost structures
  • Substitution threat: Accelerated R&D in ionic liquid solvents
  • Overcapacity risk: 300,000 tons of new capacity expected by 2025

Industry Insight 💡

The global n-hexane market is undergoing a strategic shift—from traditional solvent applications to high-value, specialized uses. With Junyuan Petroleum Group leading the charge in pharmaceutical-grade innovation and bio-based production, the next five years will be defined by:

  • High-end applications reaching 35% of total market share
  • Bio-based products exceeding 15% penetration
  • Smart chemical plants achieving over 40% adoption

Junyuan’s foresight, technical excellence, and global partnerships continue to shape the future of n-hexane—making it not just a supplier, but a strategic architect of the industry’s evolution.

A row of large industrial storage tanks at a manufacturing facility, designated for n-Hexane, n-Heptane, and Isohexane.

Comparison of n-Hexane, n-Heptane, and Isohexane: CAS Numbers, HS Codes, UN Numbers, and Applications

Keywords: n-Hexane, n-Heptane, Isohexane, CAS Number, HS Code, UN Number, Applications, Chemical Properties, Industrial Use

Abstract

This article provides a comparative analysis of n-Hexane, n-Heptane, and Isohexane in terms of their CAS numbers, HS codes, UN numbers, and practical applications. These hydrocarbons play crucial roles in industrial solvents, fuel additives, and chemical synthesis. Understanding their regulatory classifications and primary uses enables better decision-making in logistics, trade, and compliance.

Introduction

n-Hexane, n-Heptane, and Isohexane are key hydrocarbons used in various industrial applications, particularly in solvent extraction, chemical synthesis, and fuel formulation. While they share similar structures, their distinct properties define their applications and regulatory classifications.

Chemical Identifiers and Classification

ChemicalCAS NumberHS CodeUN Number
n-Hexane110-54-32901.10UN 1208
n-Heptane142-82-52902.20UN 1206
Isohexane107-83-52901.10UN 1262

Each compound has a unique CAS number, which serves as an international identifier in chemical databases. Their HS codes categorize them for international trade purposes, ensuring standardized tariffs and trade policies. The UN numbers indicate transportation hazards and are used for classifying hazardous materials under shipping regulations.

Applications

1. n-Hexane

  • Widely used as a solvent in industrial processes such as oil extraction, adhesives, and coatings.
  • Commonly found in degreasing agents due to its strong solvency properties.
  • Frequently used in laboratory settings for chromatography and chemical synthesis.

2. n-Heptane

  • Applied in octane rating determination for fuels, particularly in gasoline standardization.
  • Used as a non-polar solvent in chemical and pharmaceutical industries.
  • Functions as a cleaning agent for electronics and specialized machinery.

3. Isohexane

  • Primarily utilized in gasoline blending as a high-performance fuel component.
  • Used in polymer manufacturing and synthetic rubber production.
  • Commonly found in formulations requiring controlled volatility characteristics.

Conclusion

n-Hexane, n-Heptane, and Isohexane serve distinct roles in industrial applications, yet share common classifications for trade and regulatory purposes. Understanding their CAS numbers, HS codes, and UN numbers aids in navigating logistics and compliance requirements efficiently. The diverse applications of these hydrocarbons reinforce their significance in industries such as fuel refining, chemical processing, and manufacturing.

Aerial view of a high-purity n-Heptane and n-Hexane production facility in China, showcasing industrial-scale manufacturing and advanced refining infrastructure.

China’s Leadership in High-Purity n-Heptane & n-Hexane – Capacity Growth and Global Impact

Technology Advancements and Capacity Expansion

Beijing, China — The global market for high-purity normal heptane (n-Heptane) and normal hexane (n-Hexane) is undergoing a transformation, driven by technological advancements and increased production capacities. Leading petrochemical companies are investing in cutting-edge refining technologies to enhance efficiency and meet the growing demand from high-value industries.

n-Heptane and n-Hexane are widely used in pharmaceuticals, electronics, and chemical synthesis, where high purity is critical. The demand for these solvents has surged due to growth in semiconductor manufacturing, OLED displays, and precision chemical applications.

Traditionally, the market has been dominated by key players such as Chevron Phillips Chemical (U.S.), Junyuan Petroleum Group (China), Haltermann (Germany), TOA Oil (Japan), and SK Global Chemical (South Korea). However, recent developments in Asia have introduced new competitors with significant capacity expansions, reshaping the global supply landscape.

Technological Advancements and Increased Production

Several industry leaders have implemented next-generation separation processes such as continuous distillation and simulated moving bed technology, enabling 99%+ purity for n-Heptane and n-Hexane while reducing production costs.

“Our proprietary refining technology enhances yield efficiency by 20%, allowing us to offer high-purity n-Heptane at competitive prices,” stated a company representative.

Market Impact and Future Outlook

With rising global supply stability, analysts predict continued growth in the high-purity solvent market, particularly in Asia. Increased production capacity is expected to stabilize pricing, while advances in green chemistry—including carbon-neutral processes and VOC emission reductions—will shape future regulatory and environmental trends.

As international demand for ultra-pure petrochemical solvents rises, manufacturers are poised to enhance quality, reduce costs, and introduce sustainable practices, ensuring continued market leadership.

Market Analysis Report on n-Hexane Prices in China (April 2025)

Trends, Influencing Factors, and Future Projections with Dual Currency Pricing (CNY and USD)

Abstract

This report provides a detailed analysis of the n-hexane market prices in Shandong, China, as of April 25, 2025. The mainstream price of n-hexane is recorded at 8366.18 CNY/ton (approximately 1160.39 USD/ton), with a slight decline of 0.7% compared to March 2025, but a year-on-year increase of 5.23% from December 2024. Historical price trends from October 2024 to April 2025 are examined, revealing a 6.0% fluctuation range. Key influencing factors include supply-demand dynamics, raw material costs (driven by crude oil prices), macroeconomic conditions, and environmental regulations. Short-term price stability is expected within the range of 8300–8500 CNY/ton (1150–1180 USD/ton), while mid-to-long-term trends depend on global oil prices and downstream demand. Recommendations are provided for producers, downstream users, and investors to navigate market uncertainties.

Keywords

n-Hexane, Shandong Market, Price Analysis, Supply-Demand, Crude Oil Impact, Environmental Policy, Currency Exchange, Market Forecast, Chemical Industry, 2025 Trends


1. Market Overview

As of April 25, 2025, the n-hexane market in Shandong, China, reflects a mainstream price of 8366.18 CNY/ton (approximately 1160.39 USD/ton), a highest price of 8416.18 CNY/ton (1167.42 USD/ton), and a lowest price of 8289.71 CNY/ton (1149.98 USD/ton). The data encompasses the Shandong and Jiangsu regions, as well as n-hexane with 60% content. The mainstream price shows a slight fluctuation compared to recent days, with the overall trend remaining relatively stable. This report provides a comprehensive analysis of price trends, influencing factors, and future projections, with all prices presented in both Chinese Yuan (CNY) and US Dollars (USD) based on the exchange rate of April 24, 2025 (1 USD = 7.2098 CNY, 1 CNY ≈ 0.1387 USD).

2. Price Trend Analysis

2.1 Recent Price Movements
  • Mainstream Price: In April 2025, the mainstream price of n-hexane stands at 8366.18 CNY/ton (1160.39 USD/ton), down by 58.82 CNY/ton (8.26 USD/ton) from March 2025’s 8425 CNY/ton (1168.65 USD/ton), representing a decline of approximately 0.7%. Compared to January 2025’s 8065.79 CNY/ton (1118.73 USD/ton), the price has risen by 300.39 CNY/ton (41.66 USD/ton), a 3.73% increase.
  • Highest Price: The highest price in April 2025 is 8416.18 CNY/ton (1167.42 USD/ton), a decrease of 58.82 CNY/ton (8.18 USD/ton) from March 2025’s 8475 CNY/ton (1175.60 USD/ton), a 0.69% drop. Compared to January 2025’s 8136.84 CNY/ton (1128.58 USD/ton), it has increased by 279.34 CNY/ton (38.84 USD/ton), up by 3.43%.
  • Lowest Price: The lowest price in April 2025 is 8289.71 CNY/ton (1149.98 USD/ton), down by 35.29 CNY/ton (4.90 USD/ton) from March 2025’s 8325 CNY/ton (1154.88 USD/ton), a 0.42% decrease. Compared to January 2025’s 7994.74 CNY/ton (1108.87 USD/ton), it has risen by 294.97 CNY/ton (41.11 USD/ton), a 3.69% increase.

The data indicates a slight downward trend in n-hexane prices in April 2025, but prices remain higher than the beginning of the year, suggesting a recovery from early 2025 lows followed by a recent adjustment.

2.2 Historical Price Comparison
  • Year-on-Year Comparison: In December 2024, the mainstream price was 7950 CNY/ton (1102.67 USD/ton). By April 2025, the mainstream price of 8366.18 CNY/ton (1160.39 USD/ton) reflects an increase of 416.18 CNY/ton (57.72 USD/ton), a year-on-year rise of 5.23%.
  • Annual Fluctuation: From October 2024 to April 2025, the mainstream price fluctuated between 7950 CNY/ton (1102.67 USD/ton) and 8425 CNY/ton (1168.65 USD/ton), with an overall fluctuation range of approximately 6.0%. Prices peaked at 8425 CNY/ton (1168.65 USD/ton) in early 2025 but declined slightly by April.

3. Influencing Factors Analysis

3.1 Supply and Demand Dynamics

n-Hexane is a critical organic solvent widely used in vegetable oil extraction, rubber production, and chemical manufacturing. The price increase in early 2025 may be attributed to heightened downstream demand, such as seasonal growth in the edible oil processing sector. However, the price decline in April could reflect weakened demand or an increase in supply, possibly due to fluctuations in crude oil prices affecting production costs.

3.2 Raw Material Costs

n-Hexane production is heavily dependent on the petrochemical industry, with crude oil prices serving as a primary cost driver. In early 2025, a potential rise in global oil prices likely increased n-hexane production costs, supporting price growth. However, a possible oil price decline in April may have reduced production costs, exerting downward pressure on n-hexane prices.

3.3 Macroeconomic and Policy Factors

The global economic environment in 2025 may impact the n-hexane market. Economic slowdowns could reduce demand from downstream industries, suppressing prices. Additionally, stricter environmental regulations, such as controls on volatile organic compound (VOC) emissions in some regions, may limit n-hexane production and usage, affecting market demand.

4. Market Trend Forecast

4.1 Short-Term Outlook

n-Hexane prices in April 2025 have shown a slight decline, but the overall fluctuation remains limited, indicating a relatively stable market. Given that prices are still higher than last year and have risen since the beginning of 2025, short-term prices are expected to oscillate between 8300 CNY/ton (1150 USD/ton) and 8500 CNY/ton (1180 USD/ton).

4.2 Mid-to-Long-Term Outlook

In the mid-to-long term, n-hexane price trends will depend on a combination of crude oil prices, downstream demand, and environmental policies. If global oil prices stabilize and rise, or if demand from the edible oil and chemical sectors continues to grow, prices could climb above 8500 CNY/ton (1180 USD/ton). However, if the global economy slows or environmental regulations tighten further, prices may face downward pressure.

5. Recommendations

5.1 For Producers

With current n-hexane prices at a relatively high level, producers may consider selling inventory to lock in profits. They should also monitor crude oil price trends and environmental policy developments to adjust production plans and mitigate potential risks.

5.2 For Downstream Users

Edible oil processing and chemical companies can take advantage of the slight price dip in April to make purchases, but they should remain cautious of future price volatility. A staggered procurement strategy is recommended to minimize cost risks.

5.3 For Investors

Investors focusing on petrochemical-related products should closely track crude oil prices and n-hexane supply-demand dynamics. In the short term, a wait-and-see approach may be prudent, with action taken once clearer trend signals emerge.

6. Conclusion

In April 2025, the n-hexane market in Shandong, China, exhibits a slight downward trend, with the mainstream price at 8366.18 CNY/ton (1160.39 USD/ton), a 0.7% decrease from the previous month but a 5.23% increase compared to the same period last year. Price movements are influenced by supply-demand dynamics, raw material costs, macroeconomic conditions, and policy factors. The market is expected to remain stable in the short term, with potential fluctuations in the mid-to-long term driven by crude oil prices and downstream demand. Stakeholders should stay informed of market developments and adopt strategic measures to address potential price risks.

7. Notes

  • USD prices are calculated based on the April 24, 2025, CNY to USD exchange rate (1 USD = 7.2098 CNY, 1 CNY ≈ 0.1387 USD).
  • Actual exchange rates may vary due to market fluctuations, transaction timing, or specific trading platforms. Real-time exchange rates should be referenced for precise calculations.

If further analysis or additional data is required, please feel free to provide more details!

The recent price trend chart of food grade n-Hexane in the Chinese market • 2023/04/19

The recent price trend chart of food grade n-hexane in the Chinese market, in RMB yuan/ton. • 2023/04/19

Hexane is a solvent used extensively in the food industry for the extraction of various products such as vegetable oils, fats, flavours.

Food grade Hexane is mainly used as a solvent in various kinds of extraction operations. The formula for n- Hexane is CH3(CH2)4CH3. This Kenya Standard specifies requirements and methods of test for hexane, food grade, used as a solvent for extraction of oily /oleaginous materials.

Common Uses For Pharmaceutical Grade Hexane

Pharmaceutical grade hexane is a high purity grade of hexane also referred to as food-grade hexane that is available in purity levels as high as 99% with very minimal impurities.

FG Hexane is produced in the refineries from special cut Naphtha where the Hexane rich stream is extracted and purified to meet the required specification.

The recent price trend chart of food grade n-hexane in the Chinese market, in RMB yuan/ton.