Understanding Isopentane Synonyms for Global Procurement and Documentation

Systematic Name (IUPAC)

• 2‑Methylbutane

Common Names

• Isopentane
• Methylbutane
• iso‑Pentane
• iso‑C5H12

Other Synonyms

• Ethyldimethylmethane
• Isoamyl hydride
• 1,1‑Dimethylpropane
• 1,1,2‑Trimethylethane
• Exxsol Isopentane S (trade name)

Related Isomers

• n‑Pentane
• Neopentane (2,2‑Dimethylpropane)

Technical Data

Property	Value
CAS Number	78‑78‑4
Formula	C₅H₁₂
Boiling Point	~27.8 °C
Appearance	Colorless liquid

Why Synonyms Matter in Trade

• Regulatory compliance: Different agencies may list Isopentane under varying synonyms.
• Buyer communication: Procurement managers often recognize “iso‑Pentane” more readily than “2‑Methylbutane.”

• n-Heptane MSDS | Material Safety Data Sheet
• Cyclopentane / Isopentane Blend (50–50%)
• High-Purity Isopentane & Pentane Series — Case Study in Fine Chemical Applications
• Junyuan Petroleum Group’s October Safety Excellence Commendation Meeting
• Polymer-Grade n-Hexane with Consistent Quality

Cyclopentane’s Role in High-Performance Polyurethane Insulation Foams

Estimated reading time: 3 minutes

Refrigerators operate continuously throughout the year, making insulation performance a primary determinant of overall energy consumption. As global demand for energy-efficient appliances increases, manufacturers are prioritizing advanced insulation technologies. Cyclopentane has emerged as the preferred solution for next-generation refrigerator insulation systems.

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Why Cyclopentane Is Essential for Modern Refrigeration

Cyclopentane (C5H10) is widely recognized as an ideal blowing agent for polyurethane (PU) insulation foams.
It enhances thermal insulation, improves cooling efficiency, and supports long-term energy savings.

Its environmental profile is a major advantage:

• Zero Ozone Depletion Potential (ODP = 0)
• Ultra-low Global Warming Potential (GWP < 1)
• Fully compliant with the Montreal Protocol and global environmental regulations

Cyclopentane is now the mainstream replacement for CFCs, HCFCs, HFCs, and PFAS-restricted blowing agents used in refrigeration manufacturing.

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Refrigerator Insulation: Technical Requirements

Refrigerators and freezers follow standardized exterior dimensions.
This requires the insulation layer to:

• Deliver excellent thermal conductivity within limited thickness
• Maximize internal storage volume
• Support structural integrity between the outer shell and inner liner

Polyurethane foam provides both insulation and structural reinforcement. The blowing agent directly affects foam cell structure and thermal performance, making Cyclopentane a critical component.

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Performance Advantages of Cyclopentane

During the PU foaming process, Cyclopentane becomes trapped inside the foam’s closed cells.
As a long-lasting “cell gas,” it improves insulation properties throughout the appliance’s life cycle.

Key advantages include:

• High insulation efficiency even with thin foam layers
• Improved space utilization inside the refrigerator
• Strong compatibility with PU foam systems
• Stable processing performance in large-scale manufacturing

These benefits make Cyclopentane the leading blowing agent for space-optimized, energy-efficient refrigerator designs.

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Industry Adoption and Supply Reliability

Cyclopentane has become a core raw material for global refrigerator and freezer manufacturers.
High-purity products (≥95%) ensure consistent foam quality and insulation performance.

As production technologies advance, global Cyclopentane capacity continues to increase, improving supply stability. Some suppliers also offer:

• Customized Cyclopentane blends
• Technical guidance for PU foam formulations
• Integrated logistics support for safe handling and delivery

These services help manufacturers achieve process optimization and stable product quality.

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Conclusion

Cyclopentane is a critical enabler of high-efficiency refrigerator insulation.
Its use improves cooling performance, reduces energy consumption, lowers carbon footprints, and maximizes interior space without increasing insulation thickness.

With its strong environmental profile and proven technical advantages, Cyclopentane has become the preferred blowing agent for the global refrigeration industry.

Outbound Links

1. UNEP – Montreal Protocol Overview
   https://www.unep.org/ozonaction/who-we-are/montreal-protocol
2. ASHRAE – Refrigeration Technology & Standards
   https://www.ashrae.org/technical-resources
3. Polyurethane Foam Association – Technical Resources
   https://www.pufoam.org/resources/
4. EPA – Low-GWP Blowing Agents Information
   https://www.epa.gov/ozone-layer-protection/substitutes/low-gwp-alternatives
5. IEA – Energy Efficiency in Appliances
   https://www.iea.org/reports/appliance-efficiency

• Cyclopentane: The Smart Choice for PU Insulation
• High-Purity Cyclopentane Manufacturer – Junyuan Petroleum Group
• Cyclopentane–Isopentane in Polyurethane Foam Manufacturing
• Cyclopentane as a Blowing Agent: FAQ and Applications
• High-Purity n-Pentane for Advanced Insulation Applications

Cyclopentane Solutions for Panels, Cold Rooms, and Appliances

Introduction

Cyclopentane is transforming the polyurethane (PU) insulation industry. As a high‑performance blowing agent, it delivers superior thermal efficiency, eco‑friendly compliance, and cost savings. Manufacturers of sandwich panels, cold rooms, refrigerators, freezers, boilers, and pipe‑in‑pipe systems increasingly rely on cyclopentane to meet global energy standards.

Why Choose Cyclopentane?

• Energy Efficiency: Achieves low thermal conductivity (λ‑values) for maximum insulation performance.
• Eco‑Friendly: Zero ozone depletion potential (ODP) and reduced global warming impact.
• Cost Advantage: Competitive pricing compared to alternative blowing agents.
• Process Compatibility: Works seamlessly with continuous and discontinuous panel lines, appliance block foaming, and spray systems.

Key Applications

1. Sandwich Panels

Cyclopentane‑blown PU cores deliver lightweight, durable, and thermally efficient panels for construction and industrial use.

2. Cold Room Insulation

Industrial cold storage panels and doors achieve long‑term stability and energy savings.

3. Refrigerator & Freezer Systems

Appliance manufacturers use cyclopentane to meet strict energy efficiency regulations worldwide.

4. Pipe‑in‑Pipe Systems

District heating and cooling pipelines benefit from cyclopentane’s dimensional stability and insulation strength.

5. Boilers & Water Heaters

Cyclopentane ensures reliable jacket foam insulation, reducing energy loss.

6. Spray Foam Systems

Closed‑cell rigid spray foams can incorporate cyclopentane for building envelope applications.

Technical Advantages

• Optimized cell structure for strength and stability.
• Compatible with co‑blowing systems (iso‑/n‑pentane, HFO blends).
• Supported by ATEX safety standards and ventilation protocols.
• Globally accepted across Europe, Asia, and emerging markets.

SEO Keywords to Target

• Cyclopentane blowing agent
• PU insulation efficiency
• Eco‑friendly polyurethane foam
• Sandwich panel insulation
• Refrigerator foam blowing agent
• Cold room PU systems
• Pipe‑in‑pipe insulation solutions

Conclusion

Cyclopentane is more than a blowing agent—it is a strategic enabler for manufacturers seeking to balance performance, sustainability, and cost competitiveness. With rising demand for energy‑efficient buildings and appliances, cyclopentane positions producers to lead the market.

Outbound Links

• Polyurethane Insulation Overview – PU Europe
• Cyclopentane Safety Data – PubChem
• Energy Efficiency in Appliances – International Energy Agency

✨ Cyclopentane: Powering the next generation of insulation.

Estimated reading time: 3 minutes

• Cyclopentane–Isopentane in Polyurethane Foam Manufacturing
• High-Purity n-Pentane for Advanced Insulation Applications
• High-Purity Cyclopentane Manufacturer – Junyuan Petroleum Group
• Cyclopentane as a Blowing Agent: FAQ and Applications
• Cyclopentane (Refrigerant)

Market Segmentation, Applications, Suppliers and Strategic Outlook for Hydrocarbon Solvents in Malaysia

I. Market Overview

Malaysia’s hydrocarbon solvents market — covering pentane, hexane, heptane, cyclopentane and blends — is driven by insulation foams, palm oil extraction, pharmaceuticals, rubber, and laboratory applications. Imports dominate supply, with Junyuan Petroleum Group recognized as a global leading supplier in Southeast Asia.

II. Pentane Market Segmentation

Grades

• n‑Pentane – EPS/XPS foam blowing, refrigeration insulation
• Isopentane – Aerosol propellant, specialty solvent
• Pentane blends – Cost/performance optimized mixtures for foams

Applications

• Construction insulation materials
• Refrigeration equipment
• Chemical solvents

Buyer Types

• Foam manufacturers
• Appliance producers
• Chemical distributors

III. Hexane Market Segmentation

Grades

• Food‑grade hexane – Edible oil extraction (palm, soybean, corn)
• Industrial hexane – Adhesives, coatings, rubber processing
• Laboratory hexane – Analytical chemistry

Applications

• Palm oil extraction (largest segment in Malaysia)
• Paints, coatings, adhesives
• Rubber and pharmaceutical industries

Buyer Types

• Palm oil refineries
• Coating manufacturers
• Rubber and pharma companies

IV. Heptane Market Segmentation

Grades

• n‑Heptane – Pharmaceutical solvent, fuel testing reference
• Mixed isomers – Adhesives, industrial solvents

Applications

• Pharmaceutical formulations and synthesis
• Rubber manufacturing and adhesives
• Fuel performance testing (octane reference)
• Dyes, fragrances, laboratory solvents

Buyer Types

• Pharmaceutical manufacturers
• Rubber and adhesive producers
• Fuel testing labs and R&D centers

V. Cyclopentane Market Segmentation

Grades

• High‑purity cyclopentane – PU foam blowing, refrigeration insulation
• Industrial cyclopentane – General solvent applications

Applications

• Polyurethane foams (refrigerators, freezers, insulation panels)
• Eco‑friendly alternative to CFC/HCFC blowing agents (low GWP, ozone‑safe)
• Solvent in chemical synthesis

Buyer Types

• Appliance manufacturers
• Insulation material producers
• Eco‑compliance buyers

VI. Pentane & Cyclopentane Blends

Blend Types

• n‑Pentane/Isopentane blends – Balanced expansion, process stability
• Cyclopentane/n‑Pentane blends – Eco‑compliance + cost efficiency
• Cyclopentane/Isopentane blends – Eco‑compliance + volatility control

Applications

• PU foams for construction and refrigeration
• Flexible formulations balancing performance and environmental standards

Buyer Types

• Foam manufacturers
• Appliance producers
• Buyers seeking eco‑compliant yet cost‑effective solutions

VII. Supplier Landscape (PETRONAS excluded)

• Junyuan Petroleum Group (China) – Global leading supplier of pentane, hexane, heptane, cyclopentane, and pentane blends
• ExxonMobil (USA) – Hydrocarbon solvents, strong Asia‑Pacific distribution
• Sinopec & CNPC (China) – Exporters of hexane, heptane, cyclopentane
• SK Chemicals (South Korea) – Pentane, heptane, cyclopentane for chemical and pharma sectors

VIII. Strategic Recommendations

• Pentane & blends – Promote both n‑Pentane/Isopentane (process stability) and Cyclopentane/Isopentane (eco‑compliance + volatility control)
• Hexane – Lead with food‑grade compliance for palm oil processors
• Heptane – Target pharma and labs with purity and consistency
• Cyclopentane/n‑Pentane blends – Position as eco‑compliant, cost‑optimized choice for appliance OEMs
• Cyclopentane/Isopentane blends – Market as eco‑compliant yet flexible formulations for insulation manufacturers

• High-Purity Cyclopentane Manufacturer – Junyuan Petroleum Group
• Cyclopentane / Isopentane Blend (50–50%)
• n‑Pentane Market Insights and Buyer Opportunities
• Premium Pentane Solutions for Global Industries
• Cyclopentane–Isopentane in Polyurethane Foam Manufacturing

Reliable Foaming & Solvent Applications

Pentane is a trusted choice across industries worldwide. As a blowing agent, it plays a critical role in the production of polystyrene and polyurethane foams, ensuring lightweight, durable, and cost-efficient materials. Beyond foams, pentanes are widely used as solvents in aerosol cosmetics, aerosol paints, and car care products, delivering consistency and performance that buyers demand.

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Product Portfolio

We supply a complete range of pentane products to meet diverse industrial needs:

• n-Pentane (Normal Pentane) – Ideal for precision applications requiring stability and purity.
• Isopentane – Flexible and efficient, often blended for tailored performance.
• Pentane 80/20 – Balanced formulation for optimized foaming and solvent properties.
• Pentane 60/40 – Designed for specific manufacturing processes where ratio control is critical.
• Cyclopentane – A modern, eco-friendly alternative with excellent insulation properties.

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Why Global Buyers Choose Us

• Consistency & Quality – Every batch meets international standards.
• Versatility – Suitable for plastics, coatings, automotive care, and consumer products.
• Eco-Conscious Options – Cyclopentane offers reduced environmental impact.
• Global Reach – Logistics and supply chain solutions tailored for international procurement managers.

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Strategic Buyer Engagement for Maximum Reachclients across various sectors have experienced significant improvements in product quality and operational efficiency by integrating our pentane solutions. From foam manufacturers achieving superior insulation performance to cosmetics producers enhancing aerosol consistency, our products have consistently met and exceeded expectations.

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Testimonials

“The pentane products provided have been instrumental in optimizing our foam production process, resulting in better product durability and cost savings.”

“Reliable supply and consistent quality have made our procurement process seamless and efficient.”

“Switching to the eco-friendly cyclopentane option aligned perfectly with our sustainability goals without compromising performance.”

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Buyer Engagement Aligned with Market Needs

Looking for pentane suppliers, blowing agents for foams, or aerosol solvents? Our solutions are designed to match buyer search intent, ensuring procurement professionals find exactly what they need.

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Partner With Us

Whether you are sourcing for manufacturing, cosmetics, or automotive care, our pentane portfolio provides the reliability and efficiency your business requires. Connect with us today to secure a competitive advantage in your market.

• Who is the leading pentane manufacturer in China?
• Cyclopentane as a Blowing Agent: FAQ and Applications
• Cyclopentane–Isopentane in Polyurethane Foam Manufacturing
• n‑Pentane Market Insights and Buyer Opportunities
• High-Purity Cyclopentane Manufacturer – Junyuan Petroleum Group

Global Supply of n-Hexane for Industrial and Polymer Applications

Meta Description:
Reliable high-purity n-Hexane (CAS 110-54-3) for LLDPE and HDPE polymerization, offering consistent quality, low impurities, and global supply support for industrial and chemical applications.

Overview

n-Hexane is a straight-chain hydrocarbon solvent widely used in industrial and polymer processes. Its low polarity, high volatility, and excellent solvency make it ideal for applications requiring high purity and consistent performance.

Key Properties:

• CAS Number: 110-54-3
• Chemical Formula: C6H14
• Boiling Point: ~68.7°C
• Density: ~0.659 g/cm³ at 20°C
• Flash Point: -22°C
• Purity Grades Available: 60%, 70%, 80%, 90%, 95%, 99%

High-purity n-Hexane is especially important in polyethylene polymerization, where the presence of aromatics or branched hydrocarbons can negatively affect catalyst activity and polymer quality.

Industrial Applications

1. Polyethylene Polymerization (LLDPE & HDPE)

n-Hexane serves as a process solvent in solution and slurry polymerization:

• Acts as a carrier for catalysts and co-catalysts.
• Provides efficient heat transfer during exothermic reactions.
• Dissolves additives without interfering with polymerization.
• Boiling point (~69°C) allows easy recovery and recycling.

Purity Considerations:

• Recommended grades for polymerization: 95–99% purity.
• Low aromatics, sulfur, and water content are critical to avoid catalyst poisoning and ensure consistent polymer properties.

2. Other Industrial Uses

• Cleaning and degreasing of polymer equipment.
• Intermediate solvent in chemical synthesis.
• Extraction and other low-boiling, non-polar solvent applications.

Product Grades and Suitability

Grade	Purity	Iso-/Branched Hexane	Aromatics	Sulfur (ppm)	Water (ppm)	Boiling Range (°C)	Suitability for LLDPE/HDPE
n-Hexane 60%	60%	Moderate	≤1%	≤5	≤200	65–70	Not suitable – too low purity
n-Hexane 70%	70%	Moderate	≤1%	≤5	≤150	65–70	Marginal – may affect polymerization
n-Hexane 80%	80%	Low	≤0.5%	≤2	≤100	66–70	Limited use; may require pre-treatment
n-Hexane 90%	90%	Low	≤0.1%	≤1	≤50	67–70	Suitable for some industrial applications
n-Hexane 95%	95%	Very low	<0.1%	<1	<50	68–70	Suitable for LLDPE/HDPE polymerization
n-Hexane 99%	99%	Minimal	<0.05%	<0.5	<20	68–70	Ideal – polymer-grade high purity

Note: Hydrotreated heavy naphtha (CAS 64742-49-0) is not suitable for precision polymerization due to impurities and aromatics.

Why Choose Our n-Hexane?

• Catalyst-Friendly: Ultra-low sulfur and aromatic content prevents catalyst poisoning.
• Consistent Quality: Stable boiling range ensures predictable polymer properties.
• Versatile Applications: Suitable for industrial, laboratory, and polymer-grade uses.
• Global Supply: Flexible packaging and shipping options support uninterrupted production.

• n-Hexane – High-Purity Industrial Solvent for Extraction & Organic Synthesi
• High-Purity Isopentane & Pentane Series — Case Study in Fine Chemical Applications
• n-Heptane Pure
• Food Grade Hexane for Solvent Edible Oil Extraction Plants
• Buy Hexane from Junyuan Petroleum Group South America Suppliers

Optimized Performance for Soybean, Palm, and Sunflower Oil Plants

A New Standard in Oil Extraction

Food grade hexane has become the benchmark solvent for modern edible oil extraction plants. With strict purity requirements and compliance standards, it ensures higher yield, safer processing, and global market acceptance.

Key Specifications

• Hexane (n-Hexane + iso-Hexane) ≥ 98% – Guarantees stable extraction performance.
• n-Hexane ≥ 60% – Ensures faster dissolution and minimal residue.
• Boiling Range: 65–70°C – Optimized for edible oil extraction efficiency.
• Saybolt Color ≥ 30 – Clear solvent quality for food-grade applications.
• Bromine Value ≤ 30 / Sulfur ≤ 1 mg/kg / Benzene ≤ 0.005 wt% – Triple compliance for food safety and environmental standards.
• Density: 0.668–0.687 – Reliable physical parameters for consistent plant operations.

Benefits for Edible Oil Extraction Plants

• Higher Yield: Maximizes oil recovery from seeds and raw materials.
• Food Safety Compliance: Ultra-low benzene and sulfur content meet international food-grade standards.
• Operational Efficiency: Controlled boiling range reduces energy consumption and improves throughput.
• Global Trade Ready: Specifications align with ASEAN, EU, and US requirements, easing export certification.

• n-Hexane – High-Purity Industrial Solvent for Extraction & Organic Synthesi
• n‑Pentane Market Insights and Buyer Opportunities
• Buy Hexane from Junyuan Petroleum Group South America Suppliers
• High-Purity Cyclopentane Manufacturer – Junyuan Petroleum Group
• Cyclopentane–Isopentane in Polyurethane Foam Manufacturing

Why Choose Our Food Grade Hexane?

• Compliance Ready: Meets strict food-grade solvent regulations.
• Efficiency Driven: High Saybolt value ensures clarity and faster extraction.
• Versatile Applications: Suitable for soybean, sunflower, palm, and other edible oil plants.
• Trusted Supply: Specifications tailored for procurement managers and refinery operators worldwide.

The Key to Efficient Sulfiding in Refinery Operations

In modern refining operations, maintaining optimal catalyst performance in hydrotreating and hydrocracking units is crucial. Among the many chemical tools available, Tertiary Butyl Polysulfide (TBPS) and Di-tert-Butyl Polysulfide (DTBPS) stand out as highly effective sulfiding agents, ensuring catalysts achieve full activity quickly and reliably.

What Are TBPS and DTBPS?

TBPS and DTBPS are organosulfur compounds specially formulated to introduce sulfur into refinery catalysts. They are liquid sulfiding agents designed for use in hydrotreating (HDT) and hydrocracking (HYC) processes, where rapid and controlled sulfiding is critical for:

• Activating fresh catalysts
• Maintaining catalyst activity during operation
• Minimizing downtime during catalyst replacement

Both TBPS and DTBPS are highly soluble in refinery feedstocks, providing uniform sulfur distribution and minimizing risk of localized over-sulfiding.

Why Choose TBPS and DTBPS?

Refinery operators prefer TBPS and DTBPS for several reasons:

1. Fast and Efficient Sulfiding
   These agents rapidly convert metal oxides in catalysts to their sulfide form, ensuring immediate catalyst activity upon start-up.
2. Enhanced Safety
   Compared to elemental sulfur or H₂S gas, TBPS/DTBPS are easier to handle, with lower risk of corrosion and toxic gas exposure.
3. Optimized Catalyst Life
   Proper sulfiding reduces catalyst deactivation, extending operational life and improving overall process efficiency.
4. Flexible Application
   Suitable for all types of hydrotreating and hydrocracking catalysts, TBPS and DTBPS are compatible with diverse refinery feedstocks.

Typical Applications in Refineries

• Hydrotreating Units: Sulfiding fresh Co-Mo or Ni-Mo catalysts before hydrogenation of sulfur-containing feedstocks.
• Hydrocracking Units: Ensuring proper sulfiding of Ni-W or Ni-Mo catalysts to maximize conversion and selectivity.
• Startup & Maintenance: TBPS/DTBPS can be used during catalyst replacement, regeneration, or maintenance cycles.

Handling and Storage

To maximize safety and efficacy:

• Store in cool, dry areas away from direct sunlight.
• Use compatible materials for tanks and transfer lines to avoid corrosion.
• Follow standard personal protective equipment (PPE) guidelines during handling.

Conclusion

For refinery operators seeking reliable and efficient sulfiding solutions, TBPS and DTBPS provide the ultimate combination of safety, speed, and performance. Their ability to activate catalysts rapidly and maintain operational stability makes them essential chemicals in modern hydrotreating and hydrocracking operations.

Connecting n‑Pentane Buyers to Expanding BPA and Polycarbonate Markets Worldwide

Why n‑Pentane Matters

n‑Pentane is a critical hydrocarbon solvent widely used in the chemical industry. Its versatility makes it indispensable for:

• Epoxy resin and polycarbonate production (via bisphenol A plants)
• Foam manufacturing (as a blowing agent in insulation and packaging)
• Molecular sieve adsorption and separation processes
• Specialty solvents in coatings and adhesives

For buyers, securing reliable n‑Pentane supply means ensuring stability in multiple downstream industries.

Demand Explosion Linked to BPA Plant Operations

In the chemical value chain, bisphenol A (BPA) plant operating rates directly drive n‑Pentane consumption.

• When BPA plants run at high load, pentane demand surges.
• Historical data shows that a single BPA plant can consume over 3,000 tons of n‑Pentane per month during peak operation.
• This exponential demand growth highlights the importance of securing long‑term pentane supply contracts.

Global Market Distribution

n‑Pentane demand is closely tied to BPA plant distribution worldwide:

• Asia: China, Korea, and Japan dominate production capacity; India and Southeast Asia are expanding.
• North America: The U.S. hosts large‑scale BPA plants in Texas and Louisiana.
• Europe: Germany, Belgium, and Russia maintain steady demand through mature facilities.
• Middle East: Saudi Arabia and Qatar are building new plants, creating incremental pentane demand.

Global BPA market size in 2024 is estimated at 37 million tons, with projected annual growth of 5% through 2035 — ensuring sustained pentane demand.

Buyer Opportunities

For n‑Pentane buyers, the current market offers unique opportunities:

• Stable Supply Contracts: High operating rates enable predictable procurement volumes.
• Competitive Pricing: Market volatility can be managed through long‑term agreements.
• Diversified Applications: Beyond BPA, pentane supports foam, molecular sieve, and specialty solvent markets.
• Growth Regions: Asia remains the core demand hub, while North America, Europe, and the Middle East provide expansion opportunities.

Why Partner With Us

• Reliable Supply: We guarantee delivery even under large‑scale demand conditions.
• Cost Efficiency: Competitive pricing strategies help buyers manage budgets effectively.
• Market Resilience: Our pentane portfolio supports multiple industries, reducing dependency on a single application.
• Global Reach: With established networks across Asia, North America, Europe, and the Middle East, we ensure buyers can access pentane wherever they operate.

Key Takeaways for Buyers

• n‑Pentane demand is highly correlated with BPA plant operating rates — higher utilization means explosive growth.
• Asia is the core market, while North America and Europe provide stability, and the Middle East is the growth frontier.
• Buyers benefit from reliable supply, competitive pricing, and diversified applications, making n‑Pentane a strategic purchase for long‑term growth.

FAQ – Pentane Blend 70/30

Pentane Blend 70/30 is a mixture of n-Pentane and Isopentane in a 70:30 ratio, commonly used as a blowing agent or solvent in industrial applications.

It is widely applied in polyurethane foam production, solvent formulations, and as a chemical intermediate.

The blend contains high-purity components, typically above 95–99% hydrocarbon content.

Packaging options include ISO tanks, drums, or bulk shipment according to customer needs.

It is flammable; handle with proper safety measures, including ventilation and PPE.

The n-Pentane to Isopentane ratio can be customized to suit specific requirements.