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Zhejiang Petroleum opts for KBR’s ROSE Technology to Enhance China’s SDA Unit- ChemAnalyst

Source link : https://jpc.news/2024/09/11/technology/article10669/

– What are the specific benefits that⁢ Zhejiang ⁣Petroleum expects to achieve⁤ by integrating KBR’s ROSE technology into ⁤its solvent deasphalting (SDA) unit?

Zhejiang Petroleum has recently announced its decision to implement KBR’s ROSE (Rapid Olefins ⁢Selective Expansion) technology in its existing solvent deasphalting (SDA) unit to enhance the production ‍of high-value products. This move is expected to significantly improve the⁤ overall efficiency ‍and ⁣profitability of the SDA unit, which plays a⁤ crucial ‍role in Zhejiang ‌Petroleum’s refining operations.

The implementation of KBR’s ROSE technology is a⁢ strategic‍ decision for Zhejiang Petroleum, aimed at maximizing the ⁣production of valuable olefins and other high-margin products. The technology is known for its advanced capabilities in selectively converting heavy oil fractions ⁢into lighter, high-demand petrochemical feedstocks, enabling refiners to optimize their ⁣production processes for maximum profitability.

KBR’s ROSE technology‍ is specifically designed⁣ to enhance the performance of SDA units⁣ by increasing the yield of valuable petrochemical feedstocks, including ​butene, propylene, and other ⁣light olefins. By integrating this technology into its operations, Zhejiang ​Petroleum​ aims ⁣to capitalize on the growing demand for these petrochemicals ⁣in China and other global markets. The ‍move is also in line with the company’s commitment to ⁣sustainable growth and innovation in the ​petrochemical industry.

The decision to opt for KBR’s ROSE​ technology underscores Zhejiang Petroleum’s proactive approach⁣ to adopting advanced ​solutions that offer a competitive ​edge in the market. With an increasing focus on ‍sustainability, efficiency, and ⁣value creation, the company is ‍aligning its operations with ⁢the latest industry trends and technological‌ advancements to stay ahead of‍ the ⁢curve.

By expanding its SDA unit⁢ with KBR’s⁤ ROSE technology, Zhejiang Petroleum is set to achieve the⁤ following benefits:

Enhanced production of high-value olefins and ⁢petrochemical feedstocks

Improved operational efficiency ​and profitability of​ the SDA unit

Optimized utilization of heavy oil fractions for maximum value creation

Strengthened⁤ competitiveness in the petrochemical market

Positioned for sustainable growth ⁣and diversification of product portfolio

This strategic⁤ move by ‍Zhejiang Petroleum has the potential to ⁢set a new industry‌ benchmark ⁤for the effective integration ⁢of advanced technologies in solvent deasphalting operations. With KBR’s‌ proven track record in delivering innovative and reliable solutions for the refining and⁣ petrochemical industry, the collaboration is expected to yield substantial long-term benefits for Zhejiang Petroleum.

The successful implementation of ROSE technology in Zhejiang‍ Petroleum’s SDA ‍unit will not⁤ only enhance the company’s operational capabilities but also set a precedent for⁢ other ⁣players in the industry‌ to explore similar approaches for maximizing value creation from their ‌refining processes. With a focus on sustainable and efficient operations, Zhejiang Petroleum is poised ⁤to strengthen its position as a leading⁣ player in the global⁣ petrochemical market.

Zhejiang Petroleum’s decision to implement KBR’s ROSE technology in its SDA unit reflects a strategic investment in enhancing its refining ⁤operations and​ optimizing the production of high-value petrochemical feedstocks. The move is expected to yield significant benefits in⁢ terms of operational efficiency, profitability, and competitiveness, positioning the company for sustainable growth in the ​dynamic petrochemical market.‌ As the‍ industry continues to evolve, Zhejiang Petroleum’s proactive‌ approach to embracing advanced technologies​ underscores its commitment to innovation‌ and value‌ creation.
Zhejiang Petroleum, a leading petrochemical company in China, has recently made the decision ⁣to adopt KBR’s ROSE (Residuum⁣ Oil Supercritical Extraction) technology for their Solvent Deasphalting (SDA) unit. This move ⁢is indicative of the​ company’s⁢ commitment to staying at the⁣ forefront of innovation in ⁢the industry and optimizing their production processes.

The ‍SDA unit is a crucial component in the petroleum refining ‍process, as it is responsible for separating and removing the heavier components of crude oil such as‌ asphalt and‌ resins. These components can negatively impact ‍the quality and value of ⁤the final products derived from the refining process. By integrating ⁢KBR’s ROSE ​technology into their SDA unit, ​Zhejiang Petroleum aims to⁤ enhance the⁢ efficiency ⁤and effectiveness⁤ of this critical⁢ step in their production chain.

KBR’s ROSE technology‌ is renowned for its ability to improve the⁢ overall⁣ yield of ⁤valuable products ‌from⁣ the refining process, as well as for its ​cost-effectiveness and environmental benefits. By utilizing this cutting-edge technology, Zhejiang Petroleum expects to⁢ optimize their operations ⁤and maximize the value extracted from each barrel of crude oil processed.

This strategic decision by Zhejiang Petroleum reflects the ​broader trend⁣ within the industry⁣ towards embracing advanced‌ technologies to drive ⁣operational excellence and sustainable⁣ growth. As‍ the demand for refined petroleum products continues to rise globally, companies are increasingly turning to innovative solutions like KBR’s ROSE technology to stay competitive and meet evolving market demands.

Zhejiang Petroleum’s adoption of KBR’s ROSE technology for their SDA ‌unit ⁣underscores their commitment to operational efficiency and sustainability. This forward-thinking‌ approach⁣ will not only benefit the company’s bottom line ‌but also ‍contribute to the overall advancement‌ of the petrochemical industry⁣ in⁤ China.

The post Zhejiang Petroleum opts for KBR’s ROSE Technology to Enhance China’s SDA Unit- ChemAnalyst appeared first on JPC News.

Author : JPCNews

Publish date : 2024-09-11 07:09:33

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