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- Propylene
- Propylene Prices | Current and Forecast
- Propylene
- Propylene
- Propylene
- C3H6
About Propylene. Propylene (a.k.a. Propene, Methyl Ethylene) has been established as a major component of the global olefins business, second only to ethylene. Having one double bond, this was the first petrochemical employed on an industrial scale and is the second in natural abundance. Being a byproduct in ethylene production, propene’s development and expansion grew tremendously since 1965, due to ethylene's success as a chemical building block.
On a global scale, the predominant source of Propylene is derived from NGL (Natural Gas Liquids) or naphtha steam crackers, which concurrently generate ethylene in the so called 'olefins plants.' Within a plant, the synthesis of Propylene involves the pyrolysis of the incoming feed, followed by subsequent purification steps. With the exception of ethane-based feedstocks, the production of Propylene typically ranges from 40 to 60 wt% of the ethylene yield. The specific yield of Propylene in the pyrolysis furnace is influenced by the choice of feedstock and the operating conditions. Furthermore, Propylene can also be intentionally generated in dedicated processes such as propane dehydrogenation or metathesis plants.
Other forms that generate Propylene as a by-product are the refinery cracking processes, especially fluid-catalytic cracking (FCC). In this case, co*king units can transform, by severe cracking, crude oil residues into gas oil, co*ke, gasoline, and a smaller portion of cracked gas with 10-15 mol% C3, which is almost Propylene. This cracked gas containing Propylene can also be formed in visbreaker units but by a mild cracking process. Lastly, Propylene can also be intentionally generated in dedicated processes such as propane dehydrogenation or metathesis plants, which have been developed commercially due to an increase in Propylene derivatives demand, such as polypropylene, since the 1980s.
Propylene Handling. Liquid propylene exhibits different storage methods depending on the volume and specific requirements. It can be stored at ambient temperature in spherical pressure tanks, but for exceedingly large quantities, storage at an ultra-low temperature of -47 °C, where the propylene is nearly pressureless, becomes more suitable. When it comes to transportation, propylene is commonly transported via road and rail using cylindrical pressurized tanks maintained at ambient temperature. Railway tankers for propylene transportation typically have a capacity of 42 tons. For road transport, the maximum allowable weight of around 40 tons restricts the propylene load to approximately 20 tons. In ship transportation, a combination of smaller pressurized tanks and larger atmospheric tanks equipped with reliquefaction devices are employed to ensure safe and efficient delivery.
Propylene Production. As previously mentioned, the largest volume of PG Propylene is produced from NGL or naphtha in steam cracking processes, which generates ethylene as well. However, it can also be manufactured through other routes, based on propane dehydrogenation, metathesis or syngas-to-olefins processes. Raw materials and the respective production processes employed in the manufacturing of Propyleneare listed below.
- Ethylene + 2-butene (metathesis reaction),
- Natural gas liquids/ naphtha (stream cracking, coproduced ethylene),
- Propane (dehydrogenation),
- Methanol (MTP process, coproduced with gasoline),
- Vacuum gas oil (fluid catalytic cracking, coproduced propane, C4 fraction, C5+, naphtha, fuel oil)
Propylene Uses. The uses and applications of Propylene may vary according to its specification. The main forms of Propylene are polymer grade (PG, 99.5% minimum purity); chemical grade (CG, 90-96% minimum purity); and refinery grade (RG, 50-70% minimum purity).
The propylene market is predominantly driven by Polymer Grade Propylene, which serves as the main source in the production of polypropylene and propylene oxide. On the other hand, most chemical derivatives (e.g. oxo-alcohols, acrylonitrile, etc.) are directly derived from the less pure Chemical Grade Propylene. For Refinery Grade Propylene, the main use is the conversion to PG or CG Propylene. It is also used in liquefied petroleum gas (LPG) for thermal applications or as an octane enhancer in motor gasoline. On a smaller scale, it is used in the synthesis of cumene and isopropanol. Finally, Chemical Grade Propylene has its main application in the production of chemical products.
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- CAD - Canadian Dollar
- INR - Indian Rupee
- JPY - Japanese Yen
- KRW - South Korean Won
- MXN - Mexican Peso
- RUB - Russian Ruble
- SGD - Singapore Dollar
- ZAR - South African Rand
- CHF - Swiss Franc
- CZK - Czech Koruna
- HUF - Hungarian Forint
- IDR - Indonesian Rupiah
- MYR - Malaysian Ringgit
- NOK - Norwegian Krone
- PHP - Philippine Peso
- PLN - Polish Zloty
- SAR - Saudi Riyal
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Select a Currency
- USD - USA Dollar
- USD Cent - USA Dollar Cent
- EUR - Euro
- GBP - Pound Sterling
- CNY - Chinese Yuan
- AUD - Australian Dollar
- BRL - Brazilian Real
- CAD - Canadian Dollar
- INR - Indian Rupee
- JPY - Japanese Yen
- KRW - South Korean Won
- MXN - Mexican Peso
- RUB - Russian Ruble
- SGD - Singapore Dollar
- ZAR - South African Rand
- CHF - Swiss Franc
- CZK - Czech Koruna
- HUF - Hungarian Forint
- IDR - Indonesian Rupiah
- MYR - Malaysian Ringgit
- NOK - Norwegian Krone
- PHP - Philippine Peso
- PLN - Polish Zloty
- SAR - Saudi Riyal
- SEK - Swedish Krona
- THB - Thai Baht
- TRY - Turkish Lira
- TWD - New Taiwan Dollar
Variation
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Data Legend. The chart above shows Propylene price assessments in USA Dollar per metric ton (USD/mt) in 4 locations, as follows:
Data Use. Propylene prices are provided as an annual subscription where subscribers have access to reliable pricing data of 224 commodities worldwide. To better understand data provided by Intratec Primary Commodity Prices, check the following documents: Price Assessment Basis , Commodities Specifications , Methodology , User Guide , and Glossary .
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Propylene Price Outlook. The price of Propylene (CG, United States) increased during April 2019 to 792 USDper metric ton, which represents a considerable rise of 16% compared to the previous month’s value. On a year-over-year basis, the prices of Propylene (CG, United States) decreased significantly by 18%. Meanwhile, the average price of Propylene (PG, United States) amounted to 755 USDper metric ton, from 970 USDper metric ton one year earlier. On a month-over-month basis, the price of Propylene (PG, United States) is 6% higher than the price one month before.
The price of Propylene (PG, China) declined slightly throughout April 2019, reaching 1,030USDper metric ton. The price is 1% lower than the average price in the previous month and 20% lower than the average price one year before. In contrast, the prices of Propylene (CG, China) decreased modestly during April 2019, reaching 950 USDper metric ton, which means a decline of 1% from the previous month’s price and a decline of 19% from the previous year’s price.
The prices of Propylene (PG, Southeast Asia) experienced a significant rise of 93 USDper metric ton from the prior month's price, to 850 USDper metric ton. Such price movement meant a rise of 12% on a monthly basis and a decrease of 21% on a yearly basis. On the other hand, in April 2019, the price of Propylene (CG, Europe) witnessed a rise of 50 USDper metric ton when compared against the previous month's price, to 954 USDper metric ton. The April 2019 price is 6% lower than the price one year before.
The average price of Propylene (PG, Europe) was 1,030 USDper metric ton on April 2019 – a increase of 50 USDper metric ton, or 5%, compared with the previous month. On a year-over-year basis, the price of Propylene (PG, Europe) is 6% lower than the price one year before.
About Propylene. Propylene (a.k.a. Propene, Methyl Ethylene) has been established as a major component of the global olefins business, second only to ethylene. Having one double bond, this was the first petrochemical employed on an industrial scale and is the second in natural abundance. Being a byproduct in ethylene production, propene’s development and expansion grew tremendously since 1965, due to ethylene's success as a chemical building block.
On a global scale, the predominant source of Propylene is derived from NGL (Natural Gas Liquids) or naphtha steam crackers, which concurrently generate ethylene in the so called 'olefins plants.' Within a plant, the synthesis of Propylene involves the pyrolysis of the incoming feed, followed by subsequent purification steps. With the exception of ethane-based feedstocks, the production of Propylene typically ranges from 40 to 60 wt% of the ethylene yield. The specific yield of Propylene in the pyrolysis furnace is influenced by the choice of feedstock and the operating conditions. Furthermore, Propylene can also be intentionally generated in dedicated processes such as propane dehydrogenation or metathesis plants.
Other forms that generate Propylene as a by-product are the refinery cracking processes, especially fluid-catalytic cracking (FCC). In this case, co*king units can transform, by severe cracking, crude oil residues into gas oil, co*ke, gasoline, and a smaller portion of cracked gas with 10-15 mol% C3, which is almost Propylene. This cracked gas containing Propylene can also be formed in visbreaker units but by a mild cracking process. Lastly, Propylene can also be intentionally generated in dedicated processes such as propane dehydrogenation or metathesis plants, which have been developed commercially due to an increase in Propylene derivatives demand, such as polypropylene, since the 1980s.
Propylene Handling. Liquid propylene exhibits different storage methods depending on the volume and specific requirements. It can be stored at ambient temperature in spherical pressure tanks, but for exceedingly large quantities, storage at an ultra-low temperature of -47 °C, where the propylene is nearly pressureless, becomes more suitable. When it comes to transportation, propylene is commonly transported via road and rail using cylindrical pressurized tanks maintained at ambient temperature. Railway tankers for propylene transportation typically have a capacity of 42 tons. For road transport, the maximum allowable weight of around 40 tons restricts the propylene load to approximately 20 tons. In ship transportation, a combination of smaller pressurized tanks and larger atmospheric tanks equipped with reliquefaction devices are employed to ensure safe and efficient delivery.
Propylene Production. As previously mentioned, the largest volume of PG Propylene is produced from NGL or naphtha in steam cracking processes, which generates ethylene as well. However, it can also be manufactured through other routes, based on propane dehydrogenation, metathesis or syngas-to-olefins processes. Raw materials and the respective production processes employed in the manufacturing of Propyleneare listed below.
- Ethylene + 2-butene (metathesis reaction),
- Natural gas liquids/ naphtha (stream cracking, coproduced ethylene),
- Propane (dehydrogenation),
- Methanol (MTP process, coproduced with gasoline),
- Vacuum gas oil (fluid catalytic cracking, coproduced propane, C4 fraction, C5+, naphtha, fuel oil)
Propylene Uses. The uses and applications of Propylene may vary according to its specification. The main forms of Propylene are polymer grade (PG, 99.5% minimum purity); chemical grade (CG, 90-96% minimum purity); and refinery grade (RG, 50-70% minimum purity).
The propylene market is predominantly driven by Polymer Grade Propylene, which serves as the main source in the production of polypropylene and propylene oxide. On the other hand, most chemical derivatives (e.g. oxo-alcohols, acrylonitrile, etc.) are directly derived from the less pure Chemical Grade Propylene. For Refinery Grade Propylene, the main use is the conversion to PG or CG Propylene. It is also used in liquefied petroleum gas (LPG) for thermal applications or as an octane enhancer in motor gasoline. On a smaller scale, it is used in the synthesis of cumene and isopropanol. Finally, Chemical Grade Propylene has its main application in the production of chemical products.
Intratec Methodology. Intratec Primary Commodity Prices are produced from a data-driven, mathematical approach, which starts with the extraction of data from various primary sources, including official trade records, statistics bureaus, governmental and international agencies. Such large volume of data is validated through advanced data processing techniques, and treated by means of statistical analysis for outliers removal. When faced with input gaps, data scientists and engineers employ mathematical models or machine learning techniques to estimate prices and ensure the completeness of the price assessments presented. (learn more ).
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