Isobutane is a hydrocarbon with four carbon atoms and a branched structure. It is mainly used as a feedstock for producing isobutylene, which is a key intermediate for making synthetic rubber, plastics, coatings, and other products. It can also be used as a solvent, a fuel, or a raw material for other chemical reactions.

Isobutane has two main sources: refinery streams and natural gas liquids (NGLs). The global market for isobutane is expected to grow at a compound annual growth rate (CAGR) of 4.5% from 2020 to 2027, reaching $36.8 billion by 2027. The major drivers for this growth are the increasing demand for synthetic rubber and plastics, especially in the automotive, tire, packaging, and construction industries.

Asia is the largest and fastest-growing region for isobutane, accounting for more than 40% of the global market share in 2019. The region is also the largest producer and consumer of isobutylene, which is derived from isobutane. The main factors that contribute to the high demand for isobutane in Asia are the rapid industrialization, urbanization, and population growth, as well as the development of the petrochemical and chemical sectors.

The main industries that use isobutane in Asia are petrochemical, synthetic resin, coating, rubber, pharmaceutical, and others. These industries require isobutane for various purposes, such as making isobutylene, methyl tert-butyl ether (MTBE), tert-butyl alcohol (TBA), polyisobutylene (PIB), and other derivatives. These derivatives have various applications, such as making synthetic rubber, fuel additives, antioxidants, lubricants, adhesives, sealants, and medicines.

The main countries that import isobutane in Asia are China, India, Japan, South Korea, and Taiwan. These countries have a large and growing demand for isobutane, but they do not have enough domestic production or supply to meet their needs. Therefore, they rely on imports from other countries, such as Malaysia, Singapore, Indonesia, Thailand, and Saudi Arabia.

The main countries that export isobutane in Asia are Malaysia, Singapore, Indonesia, Thailand, and Saudi Arabia. These countries have a surplus of isobutane, as they have abundant natural gas or crude oil resources, or they have advanced refining or processing facilities. Therefore, they export isobutane to other countries, especially in Asia, to earn revenue and expand their market share.

The main challenges that face the isobutane market in Asia are the fluctuation of oil and gas prices, the environmental and safety regulations, and the competition from alternative feedstocks, such as bio-based materials. These challenges may affect the supply, demand, and profitability of isobutane and its derivatives. Therefore, the isobutane suppliers and customers need to adopt strategies, such as diversification, innovation, and collaboration, to overcome these challenges and seize the opportunities in the market.

Junyuan Petroleum Group, a leading company in the petrochemical industry, announced the launch of its new Isobutane products on Tuesday. Isobutane is a saturated hydrocarbon that has four carbon atoms and is used as a refrigerant, a propellant, and a raw material for various chemical products.

According to Junyuan Petroleum Group, the new Isobutane products have high purity, low impurities, and stable quality. They can meet the needs of various customers in the domestic and international markets, such as the refrigeration, aerosol, and pharmaceutical industries.

The company said that the launch of the Isobutane products is part of its strategy to diversify its product portfolio and enhance its competitiveness in the global market. The company also plans to expand its production capacity and invest in research and development of new technologies and applications for Isobutane.

Junyuan Petroleum Group is a leading manufacturer, producer and supplier of solvents in China. The company has been operating since 2006 and has a total annual output of over 10 million tons of petrochemical products.

What is the price of refrigerant R600a?

Refrigerant Gas R600a at CNY 156/PIECE| R600A Refrigerant Gas in China

Price and other details may vary based on product size and color. BVV 20LB High Purity China ISO-Butane R600A – 99.5% Guaranteed-None/.

Safety data sheets R600a | GWP 3. r600a-5kg. Cylinder containing 5 kg. of R600a (Isobutane).

Refrigerant Gas R600a
(Iso-Butane) High Purity Refrigerant Gas R600a, High Quality Refrigerant Gas. We will be implementing a 7.5% price increase effective from 10 March 2023

What is a substitute for R600a?

R134a

R600a was replaced with R134a in the closed-loop two-phase thermosyphon. R600a was considered as a climate-friendly in the direction of the EU F-Gas Regulation. Different filling ratios of R600a were investigated. The performance of mini TER was assessed in terms of energy and exergy analysis.

R600a

A flammable refrigerant gas with very low GWP for R134a (HFC) replacement in Refrigerator and Refrigeration systems, substitution of this refrigerant for motor vehicle air conditioning systems not originally designed for R600a is widely prohibited or discouraged.

Characteristics

Melting Point−159.42 °CBoiling Point−11.7 °CDensity2.51 kg/m3 (at 15 °C, 100 kPa)FormsLiquified gas, Flammable

USES AND APPLICATIONS

Key applications

• Refrigerating and air-conditioning systems

Synonyms: Isobutane, I-butane, 2-methylpropane, methylpropane

Chemical Formula: C4H10

CAS Number: 75-28-5

Buy R600a from Chinese suppliers | (75-28-5)
Buy customized variations and grades of R600a (C4H10) from Junyuan Petroleum Group ; safe delivery, in stock in Junyuan Petroleum Group, find MSDS, quote, sample now!

It’s essential to know about hydrocarbons, increasingly present in the market.

The use of R600a and R290 hydrocarbons as refrigerant fluids has been consolidating itself and gaining space in the market. By representing, at the same time, a good solution from a technical point of view as well as a response to the need to cause less environment impact, they have been adopted by various refrigeration equipment manufacturers.

From an environmental aspect, it should be emphasized that they do not harm the ozone layer and contribute almost negligibly to global warming – a considerable advantage over many other alternatives now present in the market. Another advantage is that their use delivers greater cooling system efficiency. For those not familiar with these refrigerants yet, it’s worth noting that R600a or isobutane, is mainly used in household refrigerators and some types of commercial equipment, while R290, or propane, is an alternative increasingly more present in commercial equipment. There is still a degree of concern from some professionals and companies in relation to the use of hydrocarbons, since they are flammable. But it’s an unnecessary concern. Knowing how to work with them, there’s no risk. The example of several European countries proves this: there, isobutane and propane have been used for many years.

There is other information that should be emphasized to make it clear how safe their use is. The first is that the entire electrical circuit of these products is suitable for flammable gases to prevent generating sparks. Added to this, it’s important to know that the hydrocarbon charge in a refrigerator is very small, being around 80 grams for household systems and 150 grams for commercial systems. Let’s compare: the hydrocarbon mass of a refrigerator is about 1% of the total existing in a 13 kg gas cylinder, which is commonly used in kitchens. Since the refrigeration systems are sealed, the gas doesn’t come in contact with the environment.

COOKING GAS MUST NOT BE USED

Liquefied petroleum gas (LPG), also known as cooking gas, cannot be used as a refrigerant fluid in refrigeration equipment. For this use, only isobutane (R600a) and propane (R290) hydrocarbons are indicated. LPG is a mixture of butane and propane, with different characteristics both for R600a as well as for R290 and its use can generate moisture in the system, among other problems. In addition to the different chemical composition, it receives an additive to have an odor that makes it easy to notice leaks and this additive can also react with the elements present in the refrigeration system. 

Necessary precautions

It’s important to be aware of the characteristics of these refrigerant fluids when doing maintenance on equipment in which they are used. Since they’re flammable, some precautions should be taken:

• Before beginning, it’s important to consult technical reference materials, reinforcing your knowledge on best practices and precautions to be taken.

• In welding operations, release all the refrigerant from the refrigeration system in a well-ventilated area or collect it in a closed container. Make sure that the tubing is completely free of isobutane or propane before using the welding torch. For this, a nitrogen charge can be passed through the tubing.

• Seal the process tube with locking pliers.

• You can also choose to use the Lokring® system to join the tubes, avoiding the need to weld

• Be attentive to the electrical devices which need to be appropriate to the flammability of these refrigerants.

A key guideline is that isobutane and propane should only be used in compressors that are designed for their use. That’s what will ensure good system performance and operational safety. Regarding electrical components, the need to use starting devices approved for the compressor must be emphasized. The thermal protector must be ¾ sealed (with cover) or the 4TM model.

Other important information is about filter driers, which should contain 4A-XH5 desiccant. Some refrigeration system characteristics change when using hydrocarbons. And, in some aspects, there are important differences among the systems with R600a and those designed for use with R290. For example, an R600a compressor has a displacement approximately 70% greater than a similar model with R134a. R600a also has lower vapor pressures than R12 or R134a, in all temperature ranges.

While in the case of propane, the situation is different. In R290 compressors the displaced volume is always smaller, reaching up to a 40% reduction when compared to R134a models. Propane operates with higher pressures compared to R600a or R134a. Regarding gas charge, the characteristic is the same for both R600a and for R290: in both cases it’s normally 40% lower when compared to other refrigerants – another reason why there should be no fears about the operational safety of hydrocarbons. In other aspects, there are few changes.

In the case of capillary tubes and heat exchangers (evaporators and condensers), almost always the same system characteristics that operate with other refrigerants are maintained. Finally, a key recommendation: in systems designed for the use of hydrocarbons, never replace them with other refrigerant fluids.

Tip: If you have doubts or want to enhance your knowledge on this topic, watch the video on changing compressors available on the Club’s website (refrigerationclub.com). The compressor shown there uses hydrocarbon.

Which refrigerators use R600a refrigerant?

This is a great, energy-efficient French-door refrigerator, the most popular style right now. It stores a lot of food and uses the climate-friendly R600a refrigerant.