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Global Propane Dehydrogenation  to Propylene  Market, Market Size, Market Share, Key Players | BIS Research

Thermoset plastics, known for their excellent mechanical strength, chemical resistance, and durability, have long been integral in industries like automotive, aerospace, electronics, and construction. However, their primary drawback has been that, once cured, they are difficult to recycle. This has posed a significant environmental challenge, as traditional thermosets end up in landfills, contributing to plastic waste. 

The global propane dehydrogenation (PDH) to propylene market is projected to reach $22,721.2 million by 2031 from $10,314.6 million in 2022, growing at a CAGR of 9.2% during the forecast period 2022-2031.

Propane Dehydrogenation  to Propylene  Overview

Thermosets are polymers that, when cured through heat or chemical reactions, become rigid and maintain their shape permanently. 

The very feature that makes thermosets desirable for applications requiring durability is also what makes them difficult to recycle. Traditional thermoset plastics cannot be reshaped or reprocessed once cured because the cross-linked molecular structure prevents them from being melted down.

Applications for Propane Dehydrogenation  to Propylene  Market 

1 Automotive and Aerospace: These industries rely heavily on thermoset composites for lightweight, high-strength materials that improve fuel efficiency and performance. 

2 Electronics: Thermoset plastics are commonly used in electronic components due to their excellent insulating properties.

3 Construction: Thermosets are used in construction materials such as adhesives, coatings, and insulation. 

Market Segmentation 

1 By End Users 

2 By Technology 

3 By Derivative 

4 By Region 

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Major Key Players  

LyondellBasell Industries Holdings B.V.

Borealis AG

Williams

INEOS Group Limited

GAIL (India) Limited

Jinneng Science and Technology Company Limited

Dow Chemical Company

Koch Industries, Inc.

And many others 

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Demand – Drivers and Limitations

Following are the demand drivers for the global Propane Dehydrogenation  to Propylene  market:

•    Advancement in Thermoset Recycling Technologies Globally •    Regulations Promoting Plastic Recycling in Various Countries •    Investments and Collaboration in Plastic Recycling Industry

The following are the challenges for the global Propane Dehydrogenation  to Propylene  market:

•    Complex Process of Thermoset Recycling •    Lack of Proper Infrastructure for Hard-to-Recycle Products

Recent Developments in Propane Dehydrogenation (PDH) to Propylene Market

• In March 2022, KBR and ExxonMobil Catalysts and Licensing collaborated on the advancements of propane dehydrogenation (PDH) technology. Under the collaboration, ExxonMobil's proprietary catalyst technology would be combined with KBR's proprietary K-PRO PDH technology to convert propane into propylene.

•In January 2022, Hyosung Chemical started the production of propylene by PDH technology for the production of polypropylene units. Before the start-up of this plant, the polypropylene units were dependent on imported propylene.

Conclusion

The propane dehydrogenation (PDH) market for propylene production is positioned for significant growth, driven by the rising demand for propylene across various industries, including packaging, automotive, construction, and textiles.

Overall, the PDH market is poised for expansion, supported by the growing demand for propylene in emerging economies, continued advancements in PDH technology, and a global push towards more energy-efficient and cost-effective chemical processes

Propane Market Outlook for Forecast Period (2023 to 2030)

Propane Market size is projected to reach USD 175.85 billion in 2028 from an estimated USD 151 billion in 2021, growing at a CAGR of 2.2% globally.

Propane is derived as a by-product of natural gas processing and crude oil refining. It is a three-carbon alkane classified as one of the liquefied petroleum gases with the molecular formula C3H8. There are two ways in which propane is processed – refining and natural gas production. Propane, alongside butane, is acquired from liquid components by natural gas processing to avoid condensation in natural gas pipelines. The propane is thicker than gas, so the blended propane is stored and transported in a liquid state. The next step is to mix odorant and propane since it is naturally colorless and odorless. The propane is classified into 3 grades – HD5, HD10, and commercial propane and each grade come from the same raw material. It has a lesser melting point, very high hydrogen content, and combustion is much cleaner than that of coal. It is are majorly used in agriculture, commercial, and residential industries.

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The latest research on the Propane market provides a comprehensive overview of the market for the years 2023 to 2030. It gives a comprehensive picture of the global Propane industry, considering all significant industry trends, market dynamics, competitive landscape, and market analysis tools such as Porter's five forces analysis, Industry Value chain analysis, and PESTEL analysis of the Propane market. Moreover, the report includes significant chapters such as Patent Analysis, Regulatory Framework, Technology Roadmap, BCG Matrix, Heat Map Analysis, Price Trend Analysis, and Investment Analysis which help to understand the market direction and movement in the current and upcoming years. The report is designed to help readers find information and make decisions that will help them grow their businesses. The study is written with a specific goal in mind: to give business insights and consultancy to help customers make smart business decisions and achieve long-term success in their particular market areas.

Leading players involved in the Propane Market include:

DCC Plc, SINOPEC, Saudi Arabian Oil Co., Suburban, Ferrellgas, Gazprom, AmeriGas Propane Inc., Air Liquide, GAIL (India) Limited, Indian Oil Corporation Ltd., Lykins Energy Solutions, Marsh L.P. Gas Co. Inc and other major key players. 

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Segmentation of Propane Market:

By Type

Liquid

Gas

By Grade

HD5 Propane

HD10 Propane

By Application

Motor Fuel

Industrial & Domestic Fuel

Refrigeration

Solvent

Others

By End User

Transportation

Residential

Agriculture

Commercial

Industrial

Chemicals & Refineries

Others

Market Segment by Regions: -

North America (US, Canada, Mexico)

Eastern Europe (Bulgaria, The Czech Republic, Hungary, Poland, Romania, Rest of Eastern Europe)

Western Europe (Germany, UK, France, Netherlands, Italy, Russia, Spain, Rest of Western Europe)

Asia Pacific (China, India, Japan, South Korea, Malaysia, Thailand, Vietnam, The Philippines, Australia, New Zealand, Rest of APAC)

Middle East & Africa (Turkey, Bahrain, Kuwait, Saudi Arabia, Qatar, UAE, Israel, South Africa)

South America (Brazil, Argentina, Rest of SA)

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Access a detailed breakdown of the Propane Market Growth 2023-2030 market worldwide, including product variations, use cases, technologies, and final consumers. Allocate resources effectively by anticipating demand patterns for emerging products. Stay ahead in product development by understanding market dynamics and consumer preferences.

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Air-Cooled Generators Market Analysis, Growth Factors and Dynamic Demand by 2032

The air-cooled generators market refers to the industry that deals with the production, sale, and distribution of generators that are cooled by air rather than liquid-based cooling systems. Air-cooled generators are commonly used in various applications where a reliable source of electrical power is required, such as residential, commercial, and industrial sectors.

The Air-Cooled Generators market is expected to grow annually by 13.7%  CAGR rate (CAGR 2023 - 2030).

Key Features of Air-Cooled Generators:

Cooling Mechanism: Unlike liquid-cooled generators that use a coolant system, air-cooled generators utilize fans or blowers to dissipate heat generated during operation. This eliminates the need for a separate cooling system, making air-cooled generators more compact and portable.

Power Range: Air-cooled generators are available in a wide range of power capacities, from small portable units with a few kilowatts of power to larger standby generators with several hundred kilowatts. They are commonly used for backup power supply in residential settings and as auxiliary power sources in commercial and industrial applications.

Fuel Types: Air-cooled generators can be designed to run on different fuel types, including gasoline, diesel, natural gas, or propane. The choice of fuel depends on factors such as availability, cost, and specific application requirements.

Ease of Installation and Maintenance: Air-cooled generators are generally easier to install compared to liquid-cooled generators because they don't require complex plumbing or coolant systems. Maintenance is also relatively simpler, involving tasks such as regular filter cleaning and oil changes.

Noise Levels: Air-cooled generators tend to be louder during operation compared to their liquid-cooled counterparts. However, advancements in generator design and acoustic insulation have helped reduce noise levels in modern air-cooled models.

Market Trends and Growth Drivers:

The air-cooled generators market has experienced steady growth in recent years due to several factors:

Increasing Demand for Backup Power: With growing concerns about power outages and the need for uninterrupted electricity supply, there is a rising demand for backup power solutions. Air-cooled generators provide a cost-effective and convenient option for homeowners, small businesses, and other applications that require standby power.

Portable Power Needs: Air-cooled generators are highly portable and suitable for applications such as camping, outdoor events, construction sites, and recreational vehicles. The popularity of outdoor activities and the need for mobile power sources have contributed to the market's expansion.

Advancements in Technology: Manufacturers are continuously improving air-cooled generator technology to enhance performance, fuel efficiency, and reduce emissions. These advancements, coupled with the increasing availability of smart features and remote monitoring capabilities, have made air-cooled generators more appealing to consumers.

Growing Construction and Industrial Sectors: The construction industry and various industrial sectors require reliable power sources to support their operations. Air-cooled generators offer a convenient and cost-effective solution, leading to increased adoption in these sectors.

We recommend referring our Stringent datalytics firm, industry publications, and websites that specialize in providing market reports. These sources often offer comprehensive analysis, market trends, growth forecasts, competitive landscape, and other valuable insights into this market.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

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Market Segmentations:

Global Air-Cooled Generators Market: By Company • GE • Siemens • ANDRITZ • Ansaldo Energia • Brush • Shanghai Electric • Mitsubishi Hitachi Power Systems • Toshiba • Harbin Electric • Bzd • WEG • Power-M • BHEL • Fuji Electric Global Air-Cooled Generators Market: By Type • 2-Pole Air-Cooled Generators • 4-Pole Air-Cooled Generators Global Air-Cooled Generators Market: By Application • Gas Turbine Power Plant • Steam Turbine Power Plant • Others Global Air-Cooled Generators Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Air-Cooled Generators market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Propylene is a colorless, flammable, gaseous hydrocarbon obtained from petroleum, and large quantities of propylene are used in the manufacturing of resins, fibers, and elastomers. Propane dehydrogenation (PDH) technology is used to produce high-purity polymer-grade propylene from a propane-rich stream. The process comprises two steps, i.e., dehydrogenating the hydrocarbon feed and removal of the hydrogen that is being formed by a specific dehydrogenation reaction.

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The global propane dehydrogenation (PDH) to propylene market is projected to reach $22,721.2 million by 2031 from $10,314.6 million in 2022, growing at a CAGR of 9.2% during the forecast period 2022-2031.

This little cabin has been here since 1952 in South Londonderry, VT and invites you to get creative with your water use, b/c it doesn't have any plumbing. 2bds, .5ba, 414 sq ft, $74k.

It does have electricity and the stove uses propane.

The stove is electric and provides heat.

That little stove looks like another heat source.

I can't believe that in all these years, no one put water in here.

Not to worry, though, it has an Incinolet, to burn rather than flush. But, you can't wash your hands.

Here's a photo I found of it in action. It looks like the depths of hell. This thing is evil.

There's a 2nd floor with 2 bedrooms.

This is awfully tiny.

There doesn't appear to be a heat source up here.

The 2nd bedroom is separated by this wall.

There's no flooring up here, either.

Well, this is convenient, the West River flows right past the house. That must be a potential creative water source.

I didn't expect this in the back. It's on a 2,614 sq ft lot.

This is weird. Doesn't look all that stable.

Not much electricity, but there's potential.

Looks like a main road up there.

A trail. That's nice.

Cute country market and deli nearby, too.

https://www.zillow.com/homedetails/33-W-River-St-South-Londonderry-VT-05155/366781451_zpid/

All across the world, there is a rush by marketeers to sell you new appliances. The last couple decades of increasingly-shitty build quality have failed to plump their margins enough, so now they're trying the carrot. Now, when you buy a refrigerator, it can be connected to the internet. Some ovens need to be connected to the internet, or they can't cook a turkey. If you went back in time and explained this state of affairs to someone in the Victorian Era, they'd shoot you.

When did our civilization lose its inherent distrust of machines pretending to be human? Half of our most popular science-fiction franchises are about a glad-handing, smiling robot trying to steal or murder our children. Now we're going to let a refrigerator lock down access to nutrients for those same children, because it couldn't resolve DNS? No more of this, I say, which is why I've started a new business.

Here at Appliance Endumbinators, our crack team of computer scientists, computer engineers, and angry people with hammers will work hard to remove any semblance of "intelligence" from your appliances. If you bought a new barbecue and it refuses to work unless you use factory-authorized propane, we'll rip its circuit boards out and splice together the miles of wiring that make up its nervous system until it gives in. We'll find your car and use an angle grinder to cut out the part of its positronic brain that obeys speed limits. And just for laughs, we'll duct-tape a thrift store alarm clock to your coffee maker, so that it can still have your brew ready for breakfast.

Book us in now, before the machines have their way with you. Become the master of your own home, comfortable with the most idiotic of automatons as you watch your neighbours suffer with thousand-page manuals, helpless service calls, and outsourced below-minimum-wage customer support just to toast a waffle.

How Renewable Propane is Shaping the Future of Energy in the U.S.

Renewable propane is made from renewable resources like vegetable oils and animal fats, offering a cleaner alternative to conventional propane. It has the same uses but with lower carbon emissions. This article covers what renewable propane is, how it’s made, and its environmental benefits.

Key Takeaways

Renewable propane is a sustainable, low-carbon alternative to conventional propane, produced from waste feedstocks like soybean oil and used cooking oil.

Renewable propane applications are expanding in transportation and commercial sectors, with potential uses ranging from heating and cooking to power generation.

Government incentives and ongoing research are crucial for improving the economics and scalability of renewable propane production, making it a key player in the transition to cleaner energy sources.

Understanding Renewable Propane

Renewable propane is a clean-burning fuel that offers an eco-friendly alternative to conventional propane. Despite having the same chemical structure as conventional propane (C3H8), renewable propane is produced from renewable resources, distinguishing it from its fossil fuel-based counterpart. This similarity in chemical structure ensures that renewable propane can be used in all the same applications as conventional propane without any modifications to existing infrastructure. Additionally, renewable fuels provide a sustainable option for energy needs.

Renewable propane is produced using renewable feedstocks. These include soybean oil, used cooking oil, and animal tallow. These feedstocks are primarily derived from waste products, making renewable propane a sustainable choice that reduces reliance on fossil fuels and minimizes waste. Renewable propane can also come from non-fossil feedstocks like agricultural residues and algae, broadening the range of sustainable sources.

Knowing how renewable propane is produced underscores its potential to significantly reduce greenhouse gas emissions. Using waste materials and renewable resources, renewable propane supports a circular economy, boosting environmental sustainability and energy efficiency.

Differences Between Renewable and Conventional Propane

While both renewable and conventional propane serve as reliable, portable energy sources, their origins and environmental impacts differ significantly. Conventional propane is derived from the liquid components recovered during natural gas processing and oil refining. In contrast, renewable propane is made from biomass-based feedstocks, such as vegetable oils and animal fats.

One of the most notable differences between the two types of propane is their carbon intensity. Renewable propane has a lower carbon intensity compared to conventional propane, making it a more environmentally friendly option. This lower carbon intensity means that renewable propane emits fewer greenhouse gases during combustion, contributing to efforts to reduce overall carbon emissions.

Despite these differences, both renewable and conventional propane are reliable and efficient fuels that provide clean, low carbon-based energy products. The availability of renewable propane as an alternative to conventional propane ensures that consumers have access to cleaner energy options without sacrificing performance or reliability.

Applications of Renewable Propane

Renewable propane is increasingly used in transportation and commercial sectors. One of the primary uses of renewable propane is to power truck fleets. Companies like U-Haul and the Commonwealth of Virginia are leading the way in adopting this cleaner fuel, demonstrating its viability and efficiency. Renewable propane can be used in both dedicated and bi-fuel vehicles, offering operators flexible fueling options and reducing dependency on conventional fuels.

In addition to its use in transportation, renewable propane is also being adopted by businesses seeking to reduce their carbon footprint. Pride Travel Center in Hartford, Connecticut, has recently added renewable propane to its offerings, highlighting the growing accessibility and demand for this sustainable fuel. As renewable propane production continues to rise, particularly as a byproduct of renewable diesel manufacturing, its availability and applications are expected to expand significantly.

The versatility of renewable propane extends beyond transportation and commercial use. Its potential applications range from heating and cooking to power generation, making it a valuable addition to the portfolio of cleaner liquid fuels. As more industries and businesses recognize the benefits of renewable propane, its adoption is likely to accelerate, contributing to a more sustainable energy future.

Production Process

Renewable propane production mainly uses the hydrotreated vegetable oil (HEFA) process, relying on fats, oils, and greases as feedstocks. This method is crucial for converting renewable feedstocks into propane and other valuable fuels. Optimizing the HEFA process allows producers to improve the efficiency and scalability of renewable propane production.

New methods like using camelina oil and converting plastics could further improve production scalability and sustainability. These innovative approaches are being explored to diversify the feedstock base and improve the overall sustainability of renewable propane production. Technological advancements in producing renewable diesel fuel and sustainable aviation fuel also contribute to increased renewable propane production as a byproduct, further boosting its availability.

Research continues to identify and use various non-petroleum feedstocks to enhance the sustainability and economic viability of renewable propane production. Exploring new feedstocks and refining production methods aims to make renewable propane more accessible and affordable.

Environmental Impact

Renewable propane stands out for its significantly lower carbon intensity compared to conventional propane. The carbon intensity of renewable propane can be up to four times lower, depending on the type of feedstock used. This lower carbon intensity translates into reduced greenhouse gas emissions, making renewable propane a more environmentally friendly fuel option.

Using renewable propane as a fuel can lead to a nearly 13% reduction in greenhouse gas emissions when compared to traditional fuels. Additionally, the carbon emission status of renewable propane at combustion is carbon neutral, further enhancing its environmental benefits. The sustainability of renewable propane is also evident in its reliance on materials that are otherwise waste products, contributing to a circular economy.

However, there are challenges to consider, such as the uncertainty about whether the emission reductions from renewable propane will meet climate goals and the adequacy of the supply of feedstocks. Despite these challenges, the environmental benefits of renewable propane, including its lower carbon intensity and potential to reduce greenhouse gas emissions, make it a promising energy source for the future.

Economic Considerations

Several factors shape the economic landscape of renewable propane, including government subsidies, feedstock availability, and market dynamics. Renewable propane requires significant government subsidies to be economical for widespread use, particularly for home heating. The high retail costs of renewable propane are influenced by the high wholesale prices and distribution costs, making it less competitive compared to conventional fuels.

Feedstock availability poses a major challenge in reducing the cost of renewable propane. The limited supply of biological feedstocks can constrain production and drive up costs. Additionally, market fluctuations due to weather conditions, geopolitical factors, and natural disasters can impact propane demand and pricing, further complicating the economic viability of renewable propane.

Despite these hurdles, U.S. production capacity for renewable propane exceeds 4.5 million gallons annually, spurred by incentives. Ongoing studies are evaluating the techno-economic feasibility of renewable propane, including its life cycle costs, to better understand its potential as a sustainable energy source.

Future Prospects

The future of renewable propane appears promising, with production likely to rise alongside renewable diesel and sustainable aviation fuel. In the U.S., facilities producing renewable propane are mainly located in California and Louisiana, with an annual capacity exceeding 4.5 million gallons. This growth in production, coupled with a shift toward cleaner fuels, is expected to drive the adoption of renewable propane.

Government incentives are key to encouraging the adoption of propane as a preferred energy source. Tax regulations limiting other fossil fuels can lead to heightened demand for propane as an alternative heating source, further supporting its market growth. The global propane market is expected to grow due to rising residential and commercial demand.

Renewable propane could meet half the world’s demand by 2050, highlighting its potential to play a significant role in the global energy landscape. As production methods improve and adoption increases, renewable propane is poised to become a key player in the transition to cleaner energy sources.

Research and Development

Continued research is essential for overcoming challenges in scaling up renewable propane production. Efforts are focused on addressing costs and scalability issues, particularly regarding feedstock availability and production costs. By exploring new methods and technologies, researchers aim to make renewable propane production more efficient and economically viable.

The Propane Education & Research Council (PERC) is at the forefront of enhancing renewable propane by exploring various renewable feedstocks. Their efforts are aimed at diversifying the sources of renewable propane and improving the overall sustainability of its production. Methods to demonstrate the feasibility of renewable propane production are being actively explored, with a focus on optimizing production processes and reducing costs, as highlighted by the world lp gas association.

The goal of ongoing research is to make renewable propane more accessible and affordable, aiding the broader adoption of clean energy technologies. The advancements made in research and development will play a pivotal role in shaping the future of renewable propane.

Summary

Renewable propane is a promising energy source that offers significant environmental and economic benefits. Its production from renewable feedstocks and lower carbon intensity make it an attractive alternative to conventional propane. The applications of renewable propane in transportation, commercial sectors, and beyond highlight its versatility and potential to reduce greenhouse gas emissions.

Despite the economic challenges and uncertainties surrounding feedstock availability, the ongoing research and development efforts are paving the way for a more sustainable and cost-effective production process. Government incentives and market dynamics will play a crucial role in driving the adoption of renewable propane.

As we look to the future, renewable propane’s potential to meet a substantial portion of the world’s energy demand underscores its importance in the transition to cleaner energy sources. Embracing renewable propane can lead us toward a more sustainable and environmentally friendly energy future.

Frequently Asked Questions

What is renewable propane?

Renewable propane is a cleaner fuel derived from renewable sources such as soybean oil and used cooking oil, providing an environmentally friendly alternative to traditional propane. It’s a sustainable choice that helps reduce carbon emissions.

How is renewable propane different from conventional propane?

Renewable propane is produced from biomass-based feedstocks and boasts a lower carbon intensity compared to conventional propane, which is sourced from natural gas processing and oil refining. This makes renewable propane a more sustainable option for energy use.

What are the primary uses of renewable propane?

Renewable propane is predominantly utilized for powering truck fleets and bi-fuel vehicles, with growing applications in commercial heating and power generation. Its versatility makes it an effective alternative to traditional fossil fuels.

What are the environmental benefits of renewable propane?

Renewable propane offers notable environmental benefits, including a 13% reduction in greenhouse gas emissions compared to traditional fuels and the potential for carbon neutrality at combustion. This makes it an effective choice for reducing your carbon footprint.

What are the economic challenges of renewable propane?

Renewable propane faces economic challenges due to its reliance on substantial government subsidies, high retail costs influenced by wholesale prices, and limited feedstock availability. Addressing these factors is crucial for its broader market adoption.

How can businesses promote renewable propane effectively?

To raise awareness and drive adoption, companies can utilize propane digital marketing. This approach helps highlight the environmental and economic advantages of renewable propane while reaching environmentally conscious customers.

Originally published at —

https://www.l4groupllc.com/digital-marketing/propane/how-renewable-propane-is-shaping-the-future-of-energy-in-the-u-s/

Detailed Report on Propane Dehydration to Propylene Market | BIS Research 

Propane dehydration to propylene is a chemical process in which propane (C₃H₈) is converted into propylene (C₃H₆) by removing hydrogen (H₂) molecules. This process typically occurs through catalytic dehydrogenation, where propane is passed over a catalyst, often chromium, platinum, or vanadium-based, at high temperatures (typically between 500°C and 700°C).

At BIS Research, we focus exclusively on technologies related to precision medicine, medical devices, life sciences, artificial intelligence (AI), machine learning (ML), Internet of Things (IoT), big data, blockchain technology, Propane Dehydration to Propylene Material , advanced materials and chemicals, agriculture and FoodTech, mobility, robotics, and aerospace and defense, among others.

The global propane dehydrogenation (PDH) to propylene market is projected to reach $22,721.2 million by 2031 from $10,314.6 million in 2022, growing at a CAGR of 9.2% during the forecast period 2022-2031.

Propane Dehydration to Propylene Overview  

Propane dehydration to propylene, also known as propane dehydrogenation (PDH), is a key industrial process used to convert propane (C₃H₈) into propylene (C₃H₆), an essential building block in the petrochemical industry. Propylene is a vital raw material in the production of polypropylene plastics, acrylonitrile, propylene oxide, and other chemicals.

Chemical Reaction

The primary reaction in propane dehydrogenation is the removal of hydrogen atoms from propane to produce propylene and hydrogen gas:

C3H8→C3H6+H2C₃H₈ \rightarrow C₃H₆ + H₂C3​H8​→C3​H6​+H2​

This is an endothermic reaction, meaning it requires the input of energy (in the form of heat) to proceed. The reaction typically takes place at high temperatures, generally between 500°C and 700°C, depending on the catalyst and reactor design used.

Catalysts Used in PDH Includes 

Chromium Based Catalysts 

Platinum Based Catalysts 

Vanadium Based Catalysts 

Bimetallic Catalysts 

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Key factors influencing market growth include 

Abundant availability of low cost propane feedstock especially from shale gas 

Rapid Industrialization and expanding consumer markets 

PDH technology is expected to play an increasingly central role in the global propylene supply chain, offering a more flexible and scalable solution for producers. 

The PDH market is poised for long-term growth, supported by favorable economic conditions, strong demand drivers, and continued innovation in process and catalyst technology.

In the automobile industry, the demand for propylene derivatives such as propylene oxide and polypropylene is rising due to the increasing number of electric vehicles that are made from lightweight materials.

Market Segmentation 

1 By Technology

CATOFIN

UOP Oleflex

Fluidized Catalytic Dehydrogenation (FCDh)

Steam Active Reforming (STAR)

Based on technology, the propane dehydrogenation (PDH) to propylene market is estimated to be led by the UOP Oleflex segment during the forecast period of 2022-2031. 

2 By End Users 

Automotive and Transportation

Construction

Packaging

Textile 

Electrical and Electronics

Based on end users, the propane dehydrogenation (PDH) to propylene market is estimated to be led by the packaging segment during the forecast period of 2022-2031.

3 By Derivative 

Polypropylene

Propylene Oxide

Acrylonitrile

Cumene

Alcohols

Based on derivative, the propane dehydrogenation (PDH) to propylene market is estimated to be led by the polypropylene segment during the forecast period of 2022-2031.

4  By Region 

North America - U.S., Canada, and Mexico

Europe - Germany, France, Italy, Spain, Russia, and Rest-of-Europe

China

U.K.

Asia-Pacific and Japan - Japan, India, South Korea, ASEAN, and Rest-of-Asia-Pacific and Japan

In the global propane dehydrogenation (PDH) to propylene market, China and North America are anticipated to gain traction in terms of propane dehydrogenation (PDH) to propylene production, owing to the presence of the world’s largest manufacturers in those regions.

Demand Drivers and Limitations 

Growing demand for propylene based products

Increased availability of shale gas 

Sustainable and Circular Economy Initiatives 

Petrochemical Demand 

Fluctuation in Crude Oil Price 

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Key Companies 

•    LyondellBasell Industries Holdings B.V.

•    Borealis AG

•    INEOS Group Limited

•    GAIL (India) Limited

•    Dow Chemical Company

•    Koch Industries, Inc.

•    Formosa Plastics Corporation

•    KBR Inc.

Recent Developments in Propane Dehydrogenation (PDH) to Propylene Market

In March 2022, KBR and ExxonMobil Catalysts and Licensing collaborated on the advancements of propane dehydrogenation (PDH) technology. Under the collaboration, ExxonMobil's proprietary catalyst technology would be combined with KBR's proprietary K-PRO PDH technology to convert propane into propylene.

In January 2022, Hyosung Chemical started the production of propylene by PDH technology for the production of polypropylene units. Before the start-up of this plant, the polypropylene units were dependent on imported propylene.

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Conclusion

The propane dehydration to propylene (PDH) market has experienced significant growth, driven by increasing global demand for propylene, especially for downstream products like polypropylene, acrylonitrile, and propylene oxide. 

Propane Market Outlook for Forecast Period (2023 to 2030)

Propane Market size is projected to reach USD 175.85 billion in 2028 from an estimated USD 151 billion in 2021, growing at a CAGR of 2.2% globally.

Propane is derived as a by-product of natural gas processing and crude oil refining. It is a three-carbon alkane classified as one of the liquefied petroleum gases with the molecular formula C3H8. There are two ways in which propane is processed – refining and natural gas production. Propane, alongside butane, is acquired from liquid components by natural gas processing to avoid condensation in natural gas pipelines. The propane is thicker than gas, so the blended propane is stored and transported in a liquid state. The next step is to mix odorant and propane since it is naturally colorless and odorless. The propane is classified into 3 grades – HD5, HD10, and commercial propane and each grade come from the same raw material. It has a lesser melting point, very high hydrogen content, and combustion is much cleaner than that of coal. It is are majorly used in agriculture, commercial, and residential industries.

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The latest research on the Propane market provides a comprehensive overview of the market for the years 2023 to 2030. It gives a comprehensive picture of the global Propane industry, considering all significant industry trends, market dynamics, competitive landscape, and market analysis tools such as Porter's five forces analysis, Industry Value chain analysis, and PESTEL analysis of the Propane market. Moreover, the report includes significant chapters such as Patent Analysis, Regulatory Framework, Technology Roadmap, BCG Matrix, Heat Map Analysis, Price Trend Analysis, and Investment Analysis which help to understand the market direction and movement in the current and upcoming years. The report is designed to help readers find information and make decisions that will help them grow their businesses. The study is written with a specific goal in mind: to give business insights and consultancy to help customers make smart business decisions and achieve long-term success in their particular market areas.

Leading players involved in the Propane Market include:

DCC Plc, SINOPEC, Saudi Arabian Oil Co., Suburban, Ferrellgas, Gazprom, AmeriGas Propane Inc., Air Liquide, GAIL (India) Limited, Indian Oil Corporation Ltd., Lykins Energy Solutions, Marsh L.P. Gas Co. Inc and other major key players. 

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Segmentation of Propane Market:

By Type

Liquid

Gas

By Grade

HD5 Propane

HD10 Propane

By Application

Motor Fuel

Industrial & Domestic Fuel

Refrigeration

Solvent

Others

By End User

Transportation

Residential

Agriculture

Commercial

Industrial

Chemicals & Refineries

Others

Market Segment by Regions: -

North America (US, Canada, Mexico)

Eastern Europe (Bulgaria, The Czech Republic, Hungary, Poland, Romania, Rest of Eastern Europe)

Western Europe (Germany, UK, France, Netherlands, Italy, Russia, Spain, Rest of Western Europe)

Asia Pacific (China, India, Japan, South Korea, Malaysia, Thailand, Vietnam, The Philippines, Australia, New Zealand, Rest of APAC)

Middle East & Africa (Turkey, Bahrain, Kuwait, Saudi Arabia, Qatar, UAE, Israel, South Africa)

South America (Brazil, Argentina, Rest of SA)

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Access a detailed breakdown of the Propane Market Growth 2023-2030 market worldwide, including product variations, use cases, technologies, and final consumers. Allocate resources effectively by anticipating demand patterns for emerging products. Stay ahead in product development by understanding market dynamics and consumer preferences.

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VEB Scharfenstein, with four production units in the GDR, produced household refrigerators not only for the home market but had export partners in 30 countries. Just prior to unification it was producing over a million fridges and freezer units per year. [...] Everyone in the factory feared for their jobs because even though it had been the biggest manufacturer of refrigerators in the Eastern Bloc, by 1992 it was facing bankruptcy. In an attempt to save jobs and give the company a new lease of life, one of the company’s engineers, Albrecht Meyer, together with the West German environmentalist, Wolfgang Lohbeck, made a technological breakthrough, enabling the company to manufacture more environmentally-friendly refrigerators. In their research and development the company collaborated with Greenpeace and the Dortmund Hygiene Institute to develop the world’s first refrigerator free of chlorofluorocarbon and hydrofluorocarbon. Instead of using chemicals that damage the ozone layer, the new units used gases like propane and butane for cooling. The company was renamed ‘Foron’ and went on to produce 650 million of the new units after its reorganisation.

This innovation represented a serious threat to the market dominance of traditional refrigerator manufacturers in the West. They immediately countered with a massive and disingenuous propaganda campaign condemning the new system fallaciously as dangerous and environmentally unfriendly. This campaign succeeded in ruining Foron’s reputation – the political climate made it easy to deprecate an East German product. Foron was forced out of the market and in 1996 it went bankrupt and was taken over by a Dutch company.

On the insistence of Greenpeace, the new technology developed by Foron had not been patented because Greenpeace wanted it to be adopted quickly by other manufacturers. When those other companies did eventually begin manufacturing similar ones they could make free use of Foron’s technology without having to buy any patents. That was an additional bitter pill. In the meantime, most manufacturers have taken on the technology developed by Foron and it has now become a standard for the environmentally-friendly manufacture of refrigerators worldwide.

Stasi State or Socialist Paradise? The German Democratic Republic and What Became of It by Bruni de la Motte & John Green with Seumas Milne (Contributor), 2015.

they say linkedin was decent 5 years ago but of course when i join to find work the developers have decided to push video content slop for some fucking reason??? I can look past all the posts from people bragging about personal achievements and marketing themselves abashedly for entry level positions, but these videos are sooo bottom of the barrel. its like infinite scroll reels but for me its niche products and business practices , and then those guys who film themselves in selfie form while making facial expressions between construction "Fail" videos. how am i supposed to focus on building my carreer network when every other post is a guy building an oven out of a propane tank or using a half million dollar excavator attachment like i give a fuckkkk

I'm gonna make you do every Murder Drones character, if that's fine with you. (I'll stop if you tell me to)

Anyways, do Thad (from Murder Drones of course)

Please don’t. There’s only so many nuts and bolts to go around and I fear that if you make me do every Murder Drones character the nut and bolt markets will crash.

Here is your next weapon of war btw

This machine, though it looks like a dragon at first glance, is in actuality an entirely artificial construct. A war machine designed to mimic the shape of a dragon. Its limbs, neck and tail are jointed in a manner similar to the limbs of an action figure or transformers toy. The ‘wing membranes’ connecting the wing fingers are black with flecks of white, maroon and orange and are visually similar to latex. The wing fingers are tipped with what I can best describe as propane torches that have orange flames when said torches are activated. The number 0 is painted on its chest. On the head, where the eyes and horns should be is replaced with a reinforced black dome a la the skull caps of Pachycephalosaurus. This dome also functions as eyes and a screen. In the place of a mouth sits a gatling gun that has seemingly infinite ammo. At the base of the gatling gun sits a speaker from which the construct can speak. Be thankful that this particular unit gained sapience, as it seems to not really mind your presence.