Comsol > Case Studies > Addressing Oil Spill Cleanup Using Hydrophobic Meshes

Addressing Oil Spill Cleanup Using Hydrophobic Meshes

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Customer Company Size
SME
Country
  • Worldwide
Product
  • COMSOL Multiphysics
  • Amphos 21 Simulation App
Tech Stack
  • Numerical Simulation
  • Hydrophobic Meshes
  • COMSOL Multiphysics
Implementation Scale
  • Pilot projects
Impact Metrics
  • Environmental Impact Reduction
  • Innovation Output
  • Cost Savings
Technology Category
  • Analytics & Modeling - Predictive Analytics
  • Functional Applications - Remote Monitoring & Control Systems
  • Application Infrastructure & Middleware - Data Visualization
Applicable Industries
  • Oil & Gas
Applicable Functions
  • Quality Assurance
  • Maintenance
Use Cases
  • Predictive Maintenance
  • Remote Asset Management
Services
  • Software Design & Engineering Services
  • System Integration
  • Training
About The Customer
Amphos 21 is a consultant group specializing in environmental technology. They have developed numerical models of hydrophobic meshes to address the challenges of oil spill cleanup. Their goal is to create a fast, easy-to-use, and environmentally friendly solution for collecting spilled oil. Amphos 21 aims to provide virtual testing capabilities through simulation apps to engineers, researchers, and cleanup crews, enabling them to find the best response for different oil spill scenarios.
The Challenge
Oil spills are urgent and unexpected events that cause significant damage to aquatic environments and marine life. Current methods for containing and recovering spilled oil, such as booms and skimmers, are often costly and only partially effective. These methods need to be deployed quickly to be effective, and even then, they often fail to recover most of the oil, which can sink to the sea floor. The collected oil-water mixture is often only partially usable, leading to further environmental concerns and wasted oil.
The Solution
Amphos 21 developed numerical simulations and custom applications to test the effectiveness of hydrophobic meshes in oil spill cleanup. These meshes, typically made of steel or copper and coated with a hydrophobic polymer, repel water and attract oil. The team used COMSOL Multiphysics software to simulate different mesh designs and assess their performance at various water depths. The simulation apps allow users to predict mesh performance, check design quality, and calculate properties like permeability and breakthrough pressure. This enables engineers to design the ideal mesh for specific conditions and deploy new tools in real-time.
Operational Impact
  • The simulation apps developed by Amphos 21 allow for virtual testing of hydrophobic meshes, reducing the need for physical experiments and saving costs.
  • The apps enable quick analysis of mesh designs for different operating conditions, helping engineers find the best solutions for specific oil spill scenarios.
  • The use of COMSOL Multiphysics software allows for detailed modeling of mesh properties and fluid dynamics, providing valuable insights into the effectiveness of different designs.
  • The apps facilitate the distribution of simulation results without sharing the entire model, making it easier for companies to adopt and implement the technology.
  • The development of these apps represents a significant advancement in designing hydrophobic meshes for oil spill cleanup, offering a more efficient and environmentally friendly solution.
Quantitative Benefit
  • The simulation apps can run an analysis in less than 30 seconds, significantly speeding up the design process.
  • The apps help reduce the cost of physical experiments by providing virtual testing capabilities.
  • The use of hydrophobic meshes can potentially recover more oil compared to traditional methods, reducing oil waste and environmental impact.

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