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.

---

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.

---

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.

---

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.

---

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.

---

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)

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.

Introduction
Cyclopentane is an eco-friendly chemical widely used as a physical blowing agent in modern foam production. With the global shift towards environmental sustainability, cyclopentane is replacing traditional CFCs and HCFCs in insulation and refrigeration foams.

---

FAQ: Cyclopentane and Blowing Agents

1️⃣ What is Cyclopentane?
Cyclopentane is a five-carbon cyclic hydrocarbon, non-toxic, colorless, and environmentally friendly. In foam production, it serves as a liquid physical blowing agent.

2️⃣ How does Cyclopentane act as a blowing agent?

• Cyclopentane vaporizes during foam formation, creating uniform bubbles in the polymer matrix.
• These bubbles form a closed-cell structure, providing lightweight and excellent thermal insulation.
• Unlike chemical blowing agents, cyclopentane does not rely on chemical reactions to produce gas.
• It is environmentally safe, with negligible ozone depletion potential and low global warming potential.

3️⃣ Applications of Cyclopentane in Foam Production

• Building Insulation: Sandwich panels, roof insulation, pipe insulation.
• Refrigeration: Foam layers in refrigerators, freezers, and air conditioners.
• High-End Packaging: Thermal packaging and cold chain foam materials.

4️⃣ Why choose Cyclopentane?

• Eco-friendly and safe, replacing CFCs/HCFCs.
• High thermal insulation performance.
• Suitable for multiple industries.
• Easy to handle as a liquid, vaporizes naturally during foam formation.

5️⃣ How to use Cyclopentane in foam production?

1. Add liquid cyclopentane to polyurethane or XPS foam systems.
2. During foam reaction, cyclopentane vaporizes and forms bubbles.
3. After curing, bubbles are sealed inside the foam, providing lightweight insulation.

---

Conclusion
Cyclopentane is a high-performance, eco-friendly physical blowing agent essential for modern insulation, refrigeration, and packaging foams. Its ability to form closed-cell foam structures ensures lightweight materials with superior thermal insulation.

Junyuan Petroleum Group — Leading Cyclopentane Production, Delivering Value Across Industries

With global emphasis on energy efficiency and environmental protection, Cyclopentane has become a key chemical intermediate and blowing agent. As China’s largest Cyclopentane manufacturer, Junyuan Petroleum Group leverages advanced technology, stable production capacity, and strict quality control to provide high-purity Cyclopentane to industries worldwide.

Company Strengths and Production Capabilities

• Industry-Leading Scale: Our production facilities feature state-of-the-art equipment, ranking among the top in China, ensuring stable supply even for large-volume orders.
• Strict Quality Control: Multiple testing stages guarantee high purity and low impurities, meeting international standards.
• Extensive Experience: Our team possesses years of expertise in chemical manufacturing and market operations, fully understanding Cyclopentane applications and downstream needs.

Key Applications of Cyclopentane

Cyclopentane’s excellent physical and chemical properties — low ozone depletion potential, moderate boiling point, and chemical stability — make it indispensable across multiple industries.

1. Polyurethane (PU) Rigid Foam — Blowing Agent
   • Cyclopentane serves as a high-efficiency, environmentally friendly blowing agent, replacing ozone-depleting CFCs.
   • Widely used in refrigerators, freezers, cold storage, and pipeline insulation, where thermal efficiency is critical.
   • As countries tighten restrictions on traditional refrigerants, Cyclopentane’s green credentials boost its market demand.
2. Refrigeration and Insulation Systems
   • While not a primary refrigerant, Cyclopentane is essential for insulating foams in refrigeration equipment.
   • Its use enhances thermal insulation, lowers GWP (Global Warming Potential), and reduces ODP (Ozone Depletion Potential), supporting eco-friendly applications.
3. Industrial Solvent and Reagent
   • Cyclopentane is used as a solvent in chemical synthesis, such as dissolving polyisoprene rubber or cellulose ethers.
   • It also serves as a standard for chromatographic analysis and other fine chemical applications due to its stability and moderate volatility.
4. Market Outlook
   • The global Cyclopentane market continues to grow steadily, with significant demand from building insulation, green refrigeration, and industrial applications.
   • Technological advances and improved safety standards are driving diversification of Cyclopentane products and expanding its use cases.

Why Choose Junyuan Petroleum Group

• Reliable Supply: Long-term contract capacity and flexible production scheduling ensure uninterrupted supply.
• High-Quality Products: Offering multiple grades of high-purity Cyclopentane for blowing agents, solvents, and analytical applications.
• Technical Support: Our team helps optimize formulations, improve foam efficiency, and reduce operational costs.
• Safety and Environmental Compliance: Strict adherence to safety standards with guidance on storage, handling, and usage.
• Global Service: Experienced in international logistics, we provide reliable delivery for global buyers.

Partnership Vision

We invite PU foam manufacturers, refrigeration equipment producers, and chemical synthesis companies worldwide to collaborate with us. Whether for blowing agents, solvents, or analytical reagents, Junyuan Petroleum Group offers high-quality, stable, and environmentally friendly Cyclopentane solutions.

Partner with us to advance green chemical solutions and contribute to a more energy-efficient future. Contact us for samples, quotations, or technical support — we look forward to being your trusted long-term partner.

https://www.gminsights.com/industry-analysis/cyclopentane-market – Global Cyclopentane market report

https://en.wikipedia.org/wiki/Cyclopentane – Cyclopentane overview

https://univdatos.com/reports/cyclopentane-market – Market demand analysis

Cyclopentane and Isobutane in Refrigerator Foam

Refrigerator manufacturers rely on Cyclopentane and Isobutane as key blowing agents in polyurethane foam systems. These two hydrocarbons play complementary roles, ensuring optimal insulation, foam performance, and energy efficiency.

In modern refrigeration manufacturing, insulation performance is crucial for energy efficiency and product reliability. Polyurethane (PU) foam is the most widely used insulation material in refrigerators and freezers. To produce high-quality PU foam, manufacturers rely on hydrocarbon blowing agents, among which Cyclopentane and Isobutane are the most common. Understanding the differences and synergy between these two agents is essential for optimal foam performance.

Cyclopentane: The Primary Blowing Agent

Cyclopentane has become the preferred primary blowing agent for PU foam due to its excellent thermal insulation properties and high closed-cell structure. Its relatively high boiling point (~49°C) allows controlled foam expansion. Advantages include:

• Superior insulation: High closed-cell content reduces heat transfer.
• Stable foam structure: Produces uniform foam density with minimal shrinkage.
• Safety and handling: Higher flash point makes it safer in large-scale industrial applications.

Isobutane: The Complementary Agent

Isobutane acts as a co-blowing agent. Its lower boiling point (~-12°C) and higher volatility bring benefits:

• Improved flowability: Reduces polyol blend viscosity, allowing better filling of cavities.
• Enhanced foam uniformity: Consistent cell size and density across insulation panels.
• Process optimization: Speeds up foam expansion and reduces production time.

Some manufacturers also use Isobutane as a refrigerant (R600a), but in foam production, it serves as an auxiliary agent. Typical proportion ranges from 20% to 30% relative to Cyclopentane.

Why They Cannot Replace Each Other

Although both Cyclopentane and Isobutane are hydrocarbons used in foaming applications, they are not interchangeable:

1. Boiling point differences: Cyclopentane ensures stable expansion; Isobutane evaporates too quickly alone.
2. Foam quality: Isobutane alone leads to low closed-cell content and uneven foam.
3. Safety considerations: Isobutane is more flammable, requiring stricter handling.
4. Solubility and compatibility: Cyclopentane dissolves better in polyols for uniform foam.

The Balance of Performance and Safety

Using Cyclopentane as the main blowing agent and Isobutane as a co-blowing agent achieves:

• High thermal insulation for energy-efficient refrigerators
• Optimized foam processing and consistent quality
• Enhanced safety and controlled volatility
• Cost-effectiveness with reduced material waste

For more details about refrigeration and insulation materials, visit ASHRAE or read about foam technology at Halonix.

Conclusion

In summary, Cyclopentane and Isobutane play distinct but complementary roles in refrigerator PU foam production. Cyclopentane ensures excellent insulation and foam stability, while Isobutane improves flowability, uniformity, and process efficiency. Manufacturers require both to achieve high-quality, energy-efficient refrigeration products, rather than substituting one for the other.

Cyclopentane: The Primary Blowing Agent

Cyclopentane has become the preferred primary blowing agent for PU foam due to its excellent thermal insulation properties and high closed-cell structure. Its relatively high boiling point (~49°C) allows for controlled foam expansion during the production process. The advantages of Cyclopentane in refrigerator insulation include:

• Superior insulation: High closed-cell content reduces heat transfer, improving energy efficiency.
• Stable foam structure: Produces uniform foam density with minimal shrinkage.
• Safety and handling: Higher flash point compared to other hydrocarbons makes it safer in large-scale industrial applications.

Cyclopentane’s excellent solubility in polyol components of PU systems ensures that the foam expands uniformly, filling all cavities of the refrigerator body and forming consistent insulation layers.

Isobutane: The Complementary Agent

While Cyclopentane provides the primary foaming action, Isobutane is often used as a co-blowing agent. Isobutane has a much lower boiling point (~-12°C) and higher volatility. Its inclusion in PU foam formulations brings several benefits:

• Improved flowability: Reduces the viscosity of the polyol blend, allowing better filling of complex cavities.
• Enhanced foam uniformity: Helps achieve consistent cell size and density across the insulation panel.
• Process optimization: Speeds up foam expansion and reduces production time.

In addition, some manufacturers also use Isobutane as a refrigerant (R600a), but in foam production, it acts primarily as an auxiliary agent. The proportion of Isobutane is carefully controlled, typically ranging from 20% to 30% relative to Cyclopentane, depending on the foam formulation and production conditions.

Why They Cannot Replace Each Other

Although both Cyclopentane and Isobutane are hydrocarbons used in foaming applications, they are not interchangeable:

1. Boiling point differences: Cyclopentane’s higher boiling point allows stable expansion, while Isobutane would over-expand or evaporate too quickly if used alone.
2. Foam quality: Using only Isobutane leads to low closed-cell content, higher shrinkage, and uneven foam structure.
3. Safety considerations: Isobutane is more flammable due to its lower flash point, requiring stricter handling conditions.
4. Solubility and compatibility: Cyclopentane dissolves better in polyols, ensuring proper foam formation, whereas Isobutane alone cannot achieve the same uniformity.

Therefore, PU foam systems in refrigerators are designed to leverage the synergy between Cyclopentane and Isobutane rather than treating them as substitutes.

The Balance of Performance and Safety

By using Cyclopentane as the main blowing agent and Isobutane as a co-blowing agent, refrigerator manufacturers achieve:

• High thermal insulation: Energy-efficient refrigerators and freezers.
• Optimized foam processing: Smooth production and consistent quality.
• Enhanced safety: Controlled volatility and reduced fire risk.
• Cost-effectiveness: Efficient use of materials and reduced waste.

This complementary approach ensures that foam panels fill all cavities, maintain structural integrity, and provide long-lasting insulation performance.

Conclusion

In summary, Cyclopentane and Isobutane play distinct but complementary roles in refrigerator PU foam production. Cyclopentane ensures excellent insulation and foam stability, while Isobutane improves flowability, uniformity, and process efficiency. Manufacturers require both to achieve high-quality, energy-efficient refrigeration products. Understanding their synergy helps explain why icebox producers continue to source both chemicals rather than substituting one for the other.

From HCFC-141b to n-Pentane: The Global Shift in Polyurethane Foam Blowing Agents

---

The polyurethane (PU) foam industry is undergoing a rapid transformation. With the global phase-out of HCFC-141b, manufacturers are seeking sustainable alternatives that maintain high performance while meeting environmental standards.

That’s where n-Pentane comes in — a clean, efficient, and cost-effective blowing agent that’s redefining insulation foam production.

Why n-Pentane is replacing 141b:

• Environmentally compliant: No ozone depletion potential (ODP = 0) and significantly lower global warming potential (GWP).
• Excellent insulation performance: Ensures fine and uniform cell structure for superior thermal efficiency.
• Lower production cost: Competitive raw material pricing and easy integration with existing foaming equipment.
• Proven applications: Widely used in PU sandwich panels, air duct insulation boards, and cold storage systems by leading manufacturers worldwide.

As demand grows for green insulation materials, switching to n-Pentane is not just a regulatory requirement — it’s a strategic advantage.

Make your insulation greener, safer, and more efficient.
Choose n-Pentane — the new standard for rigid polyurethane foam production.

Estimated reading time: 2 minutes

High-Purity Pentane Portfolio – Reliable, Efficient, and Sustainable

Our Pentane range is developed to deliver consistent quality and optimized performance across multiple industrial applications. With high purity levels and narrow boiling ranges, these Pentanes ensure reliability, efficiency, and environmental compliance in every use.

---

1. Product Overview

We offer a complete series of Pentane grades designed to meet diverse process requirements:

Product	Purity (%)	Boiling Range (°C)	Flash Point (°C)	Key Applications
n-Pentane 99%	≥99.0	35–36	-40	Polyurethane rigid foam blowing agent, solvent
Isopentane 99%	≥99.0	27–29	-51	Quick-foaming systems, refrigerant blends
Pentane Blend 80/20 (n-/iso-)	≥99.0	30–35	-45	Balanced foam expansion, insulation boards
Pentane Blend 50/50 (n-/iso-)	≥99.0	28–34	-47	General-purpose polyurethane systems
Pentane Blend (Cyclo/Isopentane)	≥99.0	28–37	-40	Low-conductivity, CFC-free insulation foam

---

2. Key Technical Features

• High Purity: Up to 99% for stable and reproducible foam performance.
• Low Sulphur Content: Ensures catalyst protection and cleaner reactions.
• Optimized Volatility: Custom boiling ranges to control foaming speed and cell structure.
• Excellent Compatibility: Suitable for polyol systems and refrigerant formulations.
• Eco-Friendly: Non-ozone depleting alternative to traditional CFCs and HCFCs.

---

3. Safety & Handling

All Pentane products are classified as highly flammable liquids and vapors.

• Store in a cool, well-ventilated area, away from ignition sources.
• Use closed systems for handling and transfer.
• Ensure compliance with REACH and GHS standards.

---

4. Applications

• Polyurethane Insulation Foams: Rigid foam for construction and appliance insulation.
• Refrigeration Systems: Used as components in hydrocarbon refrigerant blends.
• Solvent Applications: Precision cleaning and polymer processing.
• Custom Formulations: Tailor-made Pentane Blends for controlled evaporation rates.

---

5. Packaging Options

• ISO Tanks (15.5MT each) for bulk international shipments.
• Drums (125kg net) for smaller-scale customers or sampling purposes.

• Pentane Blends for PU and EPS Foam Applications | Cyclopentane & Isopentane Solutions
• Cyclopentane: The Eco-Friendly Blowing Agent Driving the Future of PU Foam Insulation
• What is the difference between EPS fire resistance levels A, B, and B1?
• How to make polyurethane foam from cyclopentane?
• Isopentane

This high-purity hydrocarbon blend—composed of 40% Isopentane and 60% Normal Pentane—is specifically formulated as a blowing agent for EPS and PU foam applications. It offers excellent volatility, controlled density, and minimal sulfur content, ensuring clean expansion and stable foam structure. The product is manufactured under strict quality protocols and verified by ASTM and gas chromatography methods.

Applications

• Expandable Polystyrene (EPS) foam production
• Polyurethane (PU) foam systems
• Insulation materials requiring low boiling point blowing agents

Advantages

• Consistent composition: 40% Isopentane / 60% Normalpentane ±2%
• Low total sulfur: ≤2.0 wt ppm
• Minimal non-volatile residue: ≤100 wt ppm
• Optimized density: 0.62 ± 0.01 g/cm³
• Verified by ASTM D-287, D-5453, D-1353, and D-1364 standards
• Excellent compatibility with EPS and PU formulations

Technical Specifications

Property	Method	Unit	Specification
C4 & Lighter	Gas Chromatography	wt ppm	40 ± 2
C6 & Heavier	Gas Chromatography	wt ppm	≤ 20
Saturated Gas	Gas Chromatography	wt ppm	≤ 100
Unsaturated Gas	Gas Chromatography	wt ppm	Balance
Non-Volatile Matter	ASTM D-1353	wt ppm	≤ 100
n-Pentane	Gas Chromatography	wt %	60 ± 2
Isopentane	Gas Chromatography	wt %	40 ± 2
Density (15.6°C)	ASTM D-287	g/cm³	0.62 ± 0.01
Total Sulfur	ASTM D-5453	wt ppm	≤ 2.0
Odor	ASTM D-1364	wt ppm	≤ 100
Chemical Formula	—	—	C5H10

Primary Keyphrase: Isopentane/Normalpentane Blowing Agent

Synonym Variants:

• Pentane Blend Blowing Agent
• Hydrocarbon Foam Expander
• EPS/PU Blowing Solution
• Volatile Organic Blowing Agent
• C5 Hydrocarbon Blend
• Foam Expansion Agent
• Pentane-Based Propellant
• Polyurethane Foam Expander
• Expandable Polystyrene Agent
• Low-Boiling Point Blowing Agent

Cyclopentane Weekly Price Update | Slight Increase to RMB 9,000 (≈ USD 1,229) per Ton

Date: November 1, 2025

---

Market Overview

As of November 1, 2025, the Chinese Cyclopentane market recorded a mild upward adjustment. The average weekly price stood at RMB 9,000 per ton (≈ USD 1,229), marking a 0.45% increase (RMB +40) compared with the previous week. The highest transaction price remained stable at RMB 9,300 per ton, showing limited volatility in trading activity.

---

Market Dynamics

The slight price increase was mainly attributed to steady demand from the insulation and refrigeration sectors, where Cyclopentane continues to serve as a key blowing agent for polyurethane foam production.
At the same time, feedstock costs for light hydrocarbons showed minor fluctuations, which moderately supported the overall price stability in the Cyclopentane market.

In regional terms, East China producers reported stable ex-factory offers, while North China markets saw slightly firmer sentiment amid constrained logistics and limited spot supply.

---

Supply and Demand Outlook

Most domestic producers maintained normal operating rates, and inventory levels remained moderate, preventing sharp price movements. However, demand recovery from home appliance and sandwich panel manufacturers is expected to lend mild upward support in the coming weeks.

Export activity also remained stable, particularly toward Southeast Asia and the Middle East markets, where Cyclopentane is favored as a non-ozone-depleting alternative to CFC and HCFC blowing agents.

---

Price Forecast

In the short term, Cyclopentane prices are expected to hover around RMB 8,900–9,300 per ton (≈ USD 1,215–1,270), with sentiment driven by seasonal demand patterns and crude oil trends.
Should upstream naphtha and isopentane prices strengthen further, downstream quotations may adjust accordingly in late November.

---

Summary

• Average weekly price: RMB 9,000 / USD 1,229 per ton
• Weekly change: +RMB 40 / +0.45%
• Highest price: RMB 9,300 / 0% change
• Market tone: Slightly firm, stable outlook

Cyclopentane remains a critical material in eco-friendly insulation manufacturing, and its price trend continues to reflect the balance between feedstock cost, export momentum, and domestic consumption recovery.