Our Expertise Encompasses a Complete Spectrum

Process equipment operates in highly demanding industrial environments where exposure to corrosive chemicals, aggressive gases, extreme temperatures, and high pressures is routine. Over time, these conditions can cause corrosion, surface damage, and structural deterioration of critical components, increasing the risk of unplanned shutdowns or serious safety incidents. Protecting vessels and equipment from corrosion is therefore essential, and selecting the right construction materials is a key factor in ensuring reliable performance across core processes such as reactions, separations, filtrations, distillations, drying, and heat transfer.

When handling highly corrosive media, high-pressure systems, or cryogenic applications, the design and fabrication of process equipment become central to safety, reliability, and cost efficiency. Careful engineering, precise material selection, and adherence to proven design standards help control wear, extend equipment life, and reduce maintenance demands. Even minor compromises in design or material choice can significantly impact operational stability and long-term operating costs.

Our integrated approach brings together material expertise, design optimization, and high-quality fabrication to deliver process equipment capable of performing under the most challenging industrial conditions. By focusing on durability, corrosion resistance, and operational safety, we ensure equipment that supports consistent performance, minimizes risk, and delivers long-term value throughout its service life.

Our Process Equipment Solutions

Reactors Cryogenic, GMP & Clad B&W

Reactors: Cryogenic, GMP & Clad

Our reactors are engineered to handle complex chemical reactions under extreme conditions, including very low cryogenic temperatures. Designed to meet stringent GMP standards and resist corrosive environments, they ensure safe, reliable, and consistent performance for high-value chemical processes.

High Pressure Autoclave Hydrogenator B&W

High Pressure Autoclave / Hydrogenator

High-pressure autoclaves and hydrogenators are built to operate safely under elevated pressures, enabling hydrogenation and other pressurized reactions. Their robust design ensures precise reaction control, compatibility with challenging media, and long-term operational reliability.
Heat Exchanger: S & T / P in P Type

Heat Exchanger: S & T / P in P Type

Our heat exchangers facilitate efficient heat transfer across a wide range of industrial applications. We design our shell-and-tube and plate-in-plate heat exchangers for high thermal efficiency, durability, and ease of maintenance, even in corrosive environments.
Distillation Column

Distillation Column

Distillation columns are designed for the accurate separation and purification of liquid mixtures. With customizable configurations, they handle a wide range of temperatures, pressures, and throughput requirements while maintaining high product quality.

RCVD b&w

Roto-Cone Vacuum Dryers

Roto-cone vacuum dryers provide efficient drying for heat-sensitive, hygroscopic, or high-value materials. Their design ensures uniform drying under vacuum conditions, minimizing product degradation and maximizing operational efficiency.
Pressure Nutsche Filter Overview

Pressure / Nutsche Filter

Pressure and Nutsche filters deliver reliable solid-liquid separation in both batch and continuous operations. Engineered for safety, ease of operation, and compatibility with corrosive or viscous media, they ensure consistent separation performance.
Batching Blending B&W

Batching Blending

Batching and blending systems enable precise mixing and uniform formulation of powders, granules, and liquids. They provide flexibility in production while ensuring consistent quality across all batches.

Rotary Vacuum Paddle Dryer Overview B&W

Rotary Vacuum Paddle Dryer

Rotary vacuum paddle dryers combine gentle material handling with efficient vacuum drying for temperature-sensitive products. They offer high thermal efficiency, uniform drying, and reduced risk of oxidation or thermal degradation.