Indonesia
Malaysia
Korea
China
India
Netherlands
JapanQ4 2024
Looking ahead to Q4 2024 and beyond, a partial recovery in oleic acid production is expected as weather conditions improve and labor challenges are resolved. However, market volatility will continue through 2030. Key factors influencing stability will include climate change impacts on agricultural output, shifts in trade policies affecting sourcing, and changing consumer preferences for sustainable ingredients. Companies will need to navigate these complexities to adapt their strategies and maintain a competitive edge in the oleic acid market.
Q3 2024
As of August 2024, oleic acid prices have been witnessing notable fluctuations, currently averaging around USD 1,452 per metric ton. This increase has reflected tight supply conditions alongside steady demand, particularly from the cosmetics and food sectors. Contributing factors have included persistent global supply chain disruptions, especially in transportation and raw material availability. The demand for oleic acid has continued to be robust, driven by its use in personal care formulations and food products, further impacting the upward pricing trend.
Q2 2024
During the first half of Q2 2024, the oleic acid market had faced challenges due to lingering weather-related issues and ongoing supply chain disruptions. Demand from the food industry had remained strong, with a reported 4% increase in consumption, especially for products emphasizing health benefits. By May 2024, there had been signs of recovery in production rates, which had begun to stabilize prices somewhat. However, overall supply had remained delicate, prompting caution among stakeholders regarding future price fluctuations.
Q1 2024
In the first quarter of 2024, oleic acid prices had averaged around USD 1,310 per metric ton. This increase had been primarily driven by production disruptions in key sourcing regions, exacerbated by extreme weather events and logistical hurdles. These challenges had led to a decline of approximately 800,000 metric tons in overall production, tightening supply. At the same time, strong demand from the food and personal care sectors, particularly for natural and organic products, had further pushed prices upward. The combination of limited supply and robust demand had created a complex environment for procurement strategies.
Molecular Weight[g/mol]
CAS No
HS Code
Molecular Formula
Packaging Type
Grades Covered
Incoterms Used
Synonym
PriceWatch Quotation Terms:
Ex-Location: This incoterm refers to a shipping agreement where the seller makes the goods available at their premises, and the buyer is responsible for all transportation costs, including shipping, insurance, and any other fees.
CIF: CIF refers to the Cost, Insurance, and Freight (CIF) terms for goods. Under CIF terms, the seller is responsible for the cost of goods, insurance, and freight charges until the goods reach the port of destination.
FD: FD stands for Free Delivered where the seller takes full responsibility for delivering goods to the location/port. This ensures the buyer receives the goods at the designated port with all necessary costs, except import duties, covered.
FOB: FOB refers to the Free On-Board shipping term, where the seller is responsible for the cost and risk of delivering the goods to the port. Once the goods are on board the vessel, the responsibility shifts to the buyer for all costs, including shipping and insurance.
| Properties | Specification |
| Moisture | max 0.30% |
| Acid value | 196-204 |
| Iodine value | 89-95 |
| Peroxide value | max 10.0 |
| Congealing temperature | 3-10°C |
| Color ( transmission @ 440 nm ) | min 77% |
| Color ( transmission @ 550 nm ) | min 97% |
| BHT | 100-300 ppm |
| Myristic Acid | max 5.0% |
| Palmitic Acid | max 16.0 % |
| Palmitoleic Acid | max 8.0 % |
| Margaric Acid | max 4.0 % |
| Stearic Acid | max 6.0 % |
| Oleic Acid | 75.0 – 88.0 % |
| Linoleic Acid | max 18.0 % |
| Linolenic Acid | max 4.0 % |
| Acids > C18 | max 4.0 % |
| Unsaponifiable | max 0.5 % |
| Ester value | max 3.0 |
| Saponification value 196-205 | 196-205 |
| Residue in ignition | max 100 ppm |
| Specific gravity (20/20°C) | 0.889-0.895 |
| Specific gravity (25/25°C) | 0.889-0.895 |
Applications
Oleic acid is a versatile compound used in cosmetics as an emulsifier, in food as a key component of cooking oils, and in pharmaceuticals as a lubricant. It also features in industrial lubricants, biodiesel production, and food preservation, highlighting its broad significance across various industries.
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PriceWatch is your trusted resource for tracking global oleic acid price trends. Our platform delivers real-time data and expert analysis, offering deep insights into the key factors driving price fluctuations in the oleic acid market. By monitoring critical events such as geopolitical tensions, supply chain disruptions, and economic shifts, PriceWatch keeps you fully informed of market dynamics.
In addition, PriceWatch provides detailed forecasts and updates on production capacities, enabling you to anticipate market changes and make well-informed decisions. With PriceWatch, you gain a competitive edge in understanding all the elements that influence oleic acid prices worldwide. Stay ahead of the curve with PriceWatch’s reliable, accurate, and timely oleic acid market data.
Track PriceWatch's oleic acid price assessment on a weekly basis since 2015 onwards, along with short-term forecasts, and get access to the detailed report in a downloadable format.
This research methodology ensures that Price-Watch delivers the most accurate, timely, and actionable oleic acid pricing assessments, helping our clients stay ahead of market trends and make informed business decisions.
Molecular Weight[g/mol]
CAS No
HS Code
Molecular Formula
Packaging Type
Grades Covered
Incoterms Used
Synonym
PriceWatch Quotation Terms:
Ex-Location: This incoterm refers to a shipping agreement where the seller makes the goods available at their premises, and the buyer is responsible for all transportation costs, including shipping, insurance, and any other fees.
CIF: CIF refers to the Cost, Insurance, and Freight (CIF) terms for goods. Under CIF terms, the seller is responsible for the cost of goods, insurance, and freight charges until the goods reach the port of destination.
FD: FD stands for Free Delivered where the seller takes full responsibility for delivering goods to the location/port. This ensures the buyer receives the goods at the designated port with all necessary costs, except import duties, covered.
FOB: FOB refers to the Free On-Board shipping term, where the seller is responsible for the cost and risk of delivering the goods to the port. Once the goods are on board the vessel, the responsibility shifts to the buyer for all costs, including shipping and insurance.
| Properties | Specification |
| Moisture | max 0.30% |
| Acid value | 196-204 |
| Iodine value | 89-95 |
| Peroxide value | max 10.0 |
| Congealing temperature | 3-10°C |
| Color ( transmission @ 440 nm ) | min 77% |
| Color ( transmission @ 550 nm ) | min 97% |
| BHT | 100-300 ppm |
| Myristic Acid | max 5.0% |
| Palmitic Acid | max 16.0 % |
| Palmitoleic Acid | max 8.0 % |
| Margaric Acid | max 4.0 % |
| Stearic Acid | max 6.0 % |
| Oleic Acid | 75.0 – 88.0 % |
| Linoleic Acid | max 18.0 % |
| Linolenic Acid | max 4.0 % |
| Acids > C18 | max 4.0 % |
| Unsaponifiable | max 0.5 % |
| Ester value | max 3.0 |
| Saponification value 196-205 | 196-205 |
| Residue in ignition | max 100 ppm |
| Specific gravity (20/20°C) | 0.889-0.895 |
| Specific gravity (25/25°C) | 0.889-0.895 |
Applications
Oleic acid is a versatile compound used in cosmetics as an emulsifier, in food as a key component of cooking oils, and in pharmaceuticals as a lubricant. It also features in industrial lubricants, biodiesel production, and food preservation, highlighting its broad significance across various industries.
The pricing of oleic acid is primarily driven by factors such as raw material costs (vegetable oils), supply chain dynamics, geopolitical tensions, and demand fluctuations across various sectors like food, cosmetics, and pharmaceuticals. Seasonal crop yields and economic conditions also play significant roles in pricing trends.
Supply chain disruptions, such as those caused by natural disasters, trade disputes, or logistical challenges, can lead to shortages in raw materials used for oleic acid production. These disruptions can cause significant price volatility, making it crucial for procurement heads to monitor supply chain stability to mitigate pricing risks.
Sustainability initiatives and regulatory changes can impact production costs for oleic acid. Stricter environmental regulations may lead to higher manufacturing expenses, which can result in increased prices. Procurement heads should stay updated on relevant regulations to better forecast pricing trends and adjust sourcing strategies accordingly.
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