Industries View all →
DC Data Centers & Mission-Critical Mechanical, electrical, plumbing, civil, structural, architectural, controls, ICT, and fire — coordinated for reliability IND Industrial & Production Facilities Process interfaces, utilities, multi-discipline design LOG Logistics & Distribution Large-scale buildings, civil, MEP, fire systems ROB Robotics & Automated Facilities Power infrastructure, control systems, smart factory MEP EV Electric Vehicles & Advanced Manufacturing High-current power, process MEP, complex technical interfaces PHA Pharmaceutical & Life Sciences Cleanrooms, controlled environments, MEP compliance
Services View all →
ENG
Integrated Design and Engineering 8 disciplines in-house · concept to construction documentation
BIM
BIM & Digital Delivery Model federation · ISO 19650 · CDE management · clash detection
MEP
Mission-Critical MEP Systems Power · cooling · controls · fire safety · utility interfaces
PCM
Project Coordination & Management Interface management · design reviews · issue tracking
AUT
Engineering Automation & Digital Tools Revit automation · BIM checks · calculations · reporting
PRJ Selected Projects
Not sure where to start? Talk to our team →

Where process meets building — engineering design for Industrial
& Production facilities where every interface must be documented

Fig.03 · Industrial facility cross-section±0.000OVERHEAD CRANE5T · 8M SPANSTRUCTURAL GRIDHEB 300 · 12M BAYBUILDING SYSTEMSBIM-FEDERATED

Industrial and production facilities are technically dense — process equipment, utilities, mechanical, electrical, and plumbing systems, structural steel, and controls all converge in constrained spaces where every interface must be documented before fabrication begins. TEBIN delivers integrated engineering and BIM coordination for chemical, food & beverage, metals, automotive, and packaging sectors — eliminating coordination risk before it reaches the site.

Sectors Manufacturing · Chemicals · Food & Bev
Standards ISO 19650 · ATEX · DSEAR
Disciplines Building systems · Civil · Structural · Architectural · Process · Controls
Delivery BIM-coordinated · ISO 19650

01 — What we design and coordinate

Precision
across every
process
interface

Industrial facilities are technically dense — production equipment, process utilities, structural steel, building systems, and controls all occupy the same constrained space. TEBIN coordinates engineering across these disciplines from concept through to construction documentation, keeping interfaces clear and deliverables buildable.

We work on greenfield production plants, brownfield expansions, and building retrofits across manufacturing, chemical processing, food and beverage, and metals sectors. Our process engineering knowledge bridges the gap between plant design and building engineering.

ManufacturingChemical ProcessingFood & BeverageSteel & MetalsAutomotivePackaging

02 — Systems we coordinate

01

Process & Utilities

  • Process heating, ventilation, and air conditioning (HVAC)
  • Compressed air system design
  • Industrial gas distribution
  • Utility metering and interfaces
02

Mechanical

  • Heating, ventilation, and air handling systems
  • Dust extraction and explosion-protected ventilation
  • Process cooling systems
  • Industrial heating design
03

Electrical

  • Medium- and low-voltage power distribution (MV/LV)
  • Motor control center design
  • Hazardous area engineering under ATEX requirements
  • Emergency and standby power
04

Controls, Civil, Structural & Architectural

  • Building management and supervisory control system interfaces (BMS/SCADA)
  • Structural steel and civil works
  • Foundation and drainage engineering
  • External utilities and infrastructure

03 — Where engineering meets process

Six sectors.
Six engineering realities.

Industrial engineering is not generic — the specific sector determines which standards apply, which materials are acceptable, and which interfaces carry the highest risk. TEBIN has direct experience designing building engineering for each of these production environments.

Chemical Processing

ATEX zone classification determines the engineering approach for every discipline — from mechanical ventilation to electrical equipment selection and drainage containment. Getting this wrong at concept stage means expensive redesign during detailed design.

  • ATEX zone classification integrated from concept
  • Secondary containment design coordinated with civil drainage
  • Hazardous area schedules driving MEP equipment selection

Food & Beverage

Hygienic design principles govern the entire building engineering — drainage outlets, duct penetrations, wall junctions, and equipment interfaces are all potential contamination points that the design must systematically address.

  • Hygienic zone classification informing MEP layout
  • Washdown area design with correct drainage gradients
  • HVAC humidity and condensation risk management

Steel & Metals

Overhead crane infrastructure, extreme thermal environments from furnaces, and heavy dynamic equipment loads require engineering that cannot be resolved by standard industrial design guides — structural and civil design leads.

  • Crane runway and gantry structural design
  • Thermal management and radiant shielding coordinated with ventilation
  • Foundation design for dynamic and extreme static loads

Automotive

Paint shop ventilation strategy, press shop vibration isolation, and robot cell power infrastructure across multi-bay facilities are engineering briefs that cut across every discipline and demand coordination from day one.

  • VOC exhaust and abatement system design
  • Vibration isolation design for press and stamping lines
  • Robot power infrastructure and transformer sizing

Packaging & FMCG

Fast production environments with dust hazard zones, large compressed air demand, and conveyor power distribution across wide floor plates — all requiring accurate ATEX classification to determine the correct engineering approach.

  • Dust hazard zone assessment driving design decisions
  • Compressed air distribution network design and sizing
  • Conveyor power infrastructure and motor control design

Energy & Utilities

HV/MV facility interfaces and grid connection design sit at the boundary between building engineering and energy network infrastructure — requiring engineering expertise that bridges both domains.

  • HV/MV switchgear and transformer design
  • Grid connection and protection coordination
  • Arc flash risk assessment integrated into electrical design

04 — BIM & digital delivery

BIM makes
complex facilities
buildable

Process-heavy environments generate more coordination conflicts than any other building type. Our BIM methodology resolves these conflicts digitally — before fabrication and before construction.

01

Process Interface Coordination

We map every process interface — from utility connection points to equipment pads — into federated BIM models, ensuring nothing falls between discipline boundaries.

02

Clash-Free Building Systems Routing

In dense production facilities, mechanical, electrical, and plumbing routes in high bays and technical areas are coordinated against structural steelwork, equipment envelopes, and maintenance access corridors.

03

Utility Network Modelling

All utility networks — compressed air, gases, process piping, drainage, and cable routes — are modelled in 3D and coordinated as part of the building model.

04

Construction & Handover Packages

We produce construction documentation and as-built BIM deliverables aligned to ISO 19650, suitable for commissioning, CMMS integration, and long-term facility management.

05 — Why project teams choose us

Industrial projects fail
at the interfaces
not the disciplines

01 Process interfaces

Nothing falls between discipline boundaries

02 Utility design

Every utility modelled, coordinated, documented

03 ATEX & safety

Hazardous zones designed with full classification logic

04 Production continuity

Engineering logic that supports operational efficiency

05 Dense environments

Clash-free models from structural steel to cable tray

06 ISO 19650 delivery

Traceable records at every milestone and handover stage

Get in touch

Working on an
industrial project?

Share your project scope, production process requirements, and key technical challenges. We will outline which disciplines and BIM workflows apply.

Start a conversation

Selected project proof

Related projects

See how the same design and engineering capabilities are applied to real project scope, interfaces, and deliverables.

All projects