Brodie International is a leading supplier of petroleum/renewable products loading and unloading systems for either tanker truck or railcar. Our systems are fully automated, engineered to the highest quality and compliant with regulatory safety standards. We design ‘plug and play’ loading and unloading systems that are supplied complete with our standard components, as well as custom systems that can be quoted quickly and delivered ready to move product when arriving on site. Brodie’s loading and unloading systems are designed with the highest accuracy in mind and are engineered to save customers both time and money.

Onshore Ship Loading/Unloading

Onshore custody transfer metering systems can vary in many ways, the design of a metering system is dependent on the application requirements. Brodie International designs and manufactures onshore metering systems to suit end user requirements. To receive the lowest overall metering uncertainty, onshore metering systems are often supplied with prover solutions (Compact Prover or Bi-Directional). Whether custody transfer measurement for crude oil or refined products, Brodie International utilizes decades of experience in single metering systems or combined metering package to make us your ideal partner.

Blending & Addictive Injection

Brodie International’s blending systems are engineered to meet all user defined specifications, flexible in design, offer a wide range of component selection and integrate seamlessly into existing facilities. Our blending solutions are custom engineered to provide transfer of blended products with ratios of 1% to 99% while remaining fully compliant with all local and federal mandates for blended products. Skids are modular, self-contained, providing a safe and efficient solution for blending of multiple products.

Bi-Directional Provers

Brodie International’s Bi-Directional Provers offer automated, on-site calibration for every type of flow metering installation, providing traceable measurement, conformance to industry accuracy and repeatability requirements, whilst reducing end users fiscal risk.