Piping System Design
for industry – from concept to execution

From concept to construction drawings
– we design piping routes with consideration for clashes, loads, and integration with plant infrastructure – based on 3D CAD and BIM modeling.

In large-scale industrial facility projects based on complex process technologies, a key role is played by the proper layout of process piping, which ensures the delivery of essential media to the process.

Who do we design piping systems for?

Power plants and
CHP facilities
Waste-to-energy installations
Waste sorting facilities
Manufacturing plants
Automotive industry
Cogeneration systems
Refinery and oil & gas installations

Why Enetecs?
We understand the specifics of industrial piping system design:

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Not sure where to start?
You're in the right place – we do!

What do we offer?

Scope of our services

If needed, we extend our designs to include other technological and auxiliary systems, such as:
How Does Our Process Work?

Submission of a Request for Quotation (RFQ)

Analysis of the Request and Input Data

Tailored offer preparation

Meeting to define scope and delivery timeline

Order placement per GTCS or negotiated agreement

Input data/documentation freeze

Design execution and delivery

Implementation of changes due to updated input data, if needed

Technologies We Use
Our Experience in Numbers

Expansion of the Orlen Olefins Complex,
2024-2025:

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meters of designed piping

Technological installations: water, steam, gases – in halls, tunnels, and open spaces.
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pipes of various diameters

Pipelines from DN20 to DN400 – tailored to the medium, pressure, and installation location. Each section is precisely designed and documented.
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different process media covered by the project

Including: benzene, toluene, ethylene, heavy gasoline, medium gasoline, light gasoline, steam, nitrogen, and other auxiliary media. Each medium was included in 3D models and documentation with defined parameters: temperature, working pressure, hazardous area classification, and material requirements for pipes and fittings.

Design work as part of the gas purification installation investment in Płock,
2024-2025:

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meters of designed pipelines

Comprehensive development of routing for gas purification systems — including utility media (steam, condensate, cooling water).
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pipes of various diameters

From DN20 to DN400 — diameter and material selection based on medium characteristics, temperature, and operating pressure.

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compliance with applicable standards

Projects ready for approval, permitting, and international client requirements. PN, EN, ISO — we know what we must meet and we deliver from the very first sketch.

Want to join the group of clients
for whom we’ve delivered hundreds of successful designs?

Learn more about our projects
in piping and industrial pipeline systems

Piping Systems – The Key to Efficient Industrial Processes

Properly designed piping systems are a critical component of any advanced industrial facility. They ensure the safe and efficient transport of process media that drive production operations – from steam and compressed air to chemical substances and fuels.

Global Standards and Innovative Solutions in Piping Design

Modern piping system design is based on internationally recognized standards, such as ASME B31.1 (Power Piping), ASME B31.3 (Process Piping), and EN 13480 (European standard for industrial piping). These standards guarantee that designed systems meet the highest requirements for safety and operational efficiency.
Technological progress has introduced innovative materials and solutions that enhance the durability and performance of piping systems. Corrosion-resistant alloys, advanced protective coatings, and intelligent monitoring systems are just some of the elements shaping modern piping engineering.

Economic Benefits of Precise 3D Piping Modeling

Accurate spatial modeling of piping systems brings measurable economic benefits. Industry studies show that using BIM technology in piping design can reduce material costs by 10–15% and shorten installation time by 20–30%. Detecting and resolving clashes during the design phase significantly reduces costly on-site modifications, directly contributing to timely project completion.

The Impact of Industry 4.0 on Piping System Design

The Industry 4.0 era introduces a new dimension to piping design. Integrating IoT sensors with piping systems enables continuous monitoring of operating parameters, predictive maintenance, and process optimization. Modern designs incorporate these elements at the conceptual stage, ensuring system readiness for integration with production management platforms.

Sustainable Development in Piping Design

Contemporary piping engineering also takes sustainability into account. Optimized flow design to reduce pressure losses, efficient insulation systems to minimize heat loss, and environmentally friendly material selection are elements that not only lower the carbon footprint of installations but also reduce operating costs.

Interdisciplinary Approach – The Foundation of Effective Piping Design

Effective piping system design requires close cooperation between experts from multiple fields – process engineers, mechanical engineers, and automation and control specialists. Interdisciplinary project teams, working on shared information platforms, can identify optimal solutions unattainable with the traditional silo-based design approach.

The Future of Piping Design

The piping design industry is evolving toward increasing digitalization. Advanced flow simulations, thermal stress modeling, and the automation of design processes using artificial intelligence are technologies already transforming the way piping systems are engineered, increasing their reliability and efficiency.
Modern piping design is no longer limited to technical drawings and calculations – it is a comprehensive engineering process, integrating cutting-edge technological advancements with decades of industry experience to deliver safe, efficient, and future-ready solutions for clients.