Chemical plant due sunset

Reducing energy consumption and emissions of chemical plants by predictive modelling

3 ways how KROHNE can help you increase overall efficiency:

In the chemical industry, efficient pipeline management is crucial for minimising energy consumption and reducing emissions. Pipelines are the lifelines of chemical plants, transporting raw materials and products across various stages of production. However, inefficiencies or failures in pipeline operations can lead to excessive energy use, increased emissions, and costly disruptions. KROHNE’s PipePatrol Predictive Modelling and Digital Twin technology offer a cutting-edge solution to these challenges by enabling proactive management and optimisation of pipeline systems.

なぜこれが重要なのか?

Imagine a chemical plant where pipelines transport volatile chemicals between processing units. These pipelines must operate under precise conditions to ensure safety, efficiency, and environmental compliance. Any deviation in pressure, temperature, or flow rate can result in increased energy consumption and higher emissions. For instance, if a pipeline feed fails unexpectedly, it can lead to a significant spike in energy usage as the system compensates to maintain operation. PipePatrol’s Predictive Modelling and Digital Twin technology continuously monitor these pipelines, providing real-time insights and forecasting potential issues before they become critical, looking 24 hours or longer into the future. This allows operators to make informed decisions that optimise energy use and minimise emissions.

工業プラントの前に設置された鋼製パイプライン

How does KROHNE’s PipePatrol Predictive Modelling and digital twin help?

PipePatrol integrates predictive modelling with digital twin technology to create a virtual representation of the pipeline system. This is how it works:

Google Earthマップ上に盗難検知位置を表示

Real-Time monitoring and prediction

The system continuously evaluates the current state of the pipeline and predicts future behaviour based on continuously comparing a real-time simulation to measured data and process conditions. This predictive capability allows operators to take pre-emptive actions, such as adjusting flow rates or switching feed lines, to maintain optimum pipeline performance.

Digital twin technology

The digital twin mirrors the physical pipeline system, simulating its thermodynamic and fluid-mechanical conditions. This virtual model enables operators to test different scenarios, foresee potential disruptions, and implement corrective actions without impacting the actual operation.

Principle of Extended Real-Time Transient Model (E-RTTM)
PipePatrol service circle

Energy and emissions optimisation

By predicting and mitigating pipeline inefficiencies, the system helps to reduce unnecessary energy consumption and lower emissions, supporting the plant’s sustainability goals.

Digital Twin future hydraulic behaviour

Contribution to Sustainability

  • Energy efficiency: PipePatrol’s predictive capabilities allow for precise control of pipeline operations, reducing energy waste by ensuring the system runs under optimum conditions at all times.

  • Emissions reduction: By preventing pipeline disruptions and inefficiencies, the system minimises the need for reactive measures that often result in increased emissions. This proactive approach supports compliance with environmental regulations and contributes to a lower carbon footprint.

  • Resource optimisation: The system's ability to predict and prevent failures also reduces the need for frequent maintenance and replacement of pipeline components, conserving resources and reducing the environmental impact associated with these activities.

Further Benefits

  • Predictive pipeline simulation: The system simulates the future state of the pipeline based on current data, enabling operators to foresee and prevent potential issues.

  • Digital twin for testing and optimisation: The digital twin provides a virtual environment for testing different operational scenarios, allowing for the optimisation of energy use and emission reduction without disrupting actual operations.

  • Real-Time alerts and actionable insights: Operators receive real-time alerts about potential inefficiencies or failures, along with actionable insights for corrective measures.

The solution for sustainable pipeline management

In chemical plants, efficient pipeline operation is key to reducing energy consumption and emissions. KROHNE’s PipePatrol Predictive Modelling and Digital Twin technology provide a comprehensive solution for achieving these goals. By continuously monitoring pipeline conditions, predicting potential issues, and allowing for proactive management, PipePatrol not only enhances operational efficiency but also plays a critical role in the plant’s overall sustainability strategy.

With PipePatrol, chemical plants can achieve significant reductions in energy consumption and emissions, ensuring a more sustainable and efficient operation. This advanced technology empowers operators to make data-driven decisions that enhance both performance and environmental stewardship.

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Google Earth上に赤色で表示されたパイプライン

より安全で信頼性の高いパイプライン運転を実現する先行型流体予測

  • 完全動的デジタルツインを活用した リアルタイム流体予測
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工業プラントの前に設置された鋼製パイプライン

多製品パイプライン運用における完全な可視化と制御

  • 製品境界を明確に把握するための、バッチ先端および後端位置の リアルタイム追跡
  • 運用制御を強化する、 正確なバッチおよび界面の識別
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  • 予測精度を向上させるための フィールド計装機器との統合 (例:密度計、超音波流量計)と
海上桟橋パイプラインによる石油タンカーへの供給

あらゆるパイプラインに対応する最高レベルの感度と信頼性

  • 流体モデリング、パターン認識、AI最適化、リアルタイムセンサーデータを組み合わせた マルチメソッド漏えい検知
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  • 過渡状態においても実証済みの 最速クラスの警報性能
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  • API 1130、API 1175、TRFL、CSA Z662をはじめ、Shell、DOW、Saudi Aramcoなどの 業界規格を含む国際規制に適合