Access NOVTRIQ's engineering methodology, technical frameworks and processed expertise. Our resources reflect how we engineer — standards-first, computationally rigorous and fully documented.
Rigorous calculation-based design using validated software tools and first-principles engineering. Every parameter justified, every assumption documented.
Engineering grounded in applicable standards from project inception. Compliance is designed in, not checked after — ensuring regulatory alignment at every stage.
Coordinated engineering across mechanical, electrical, public health, fire and energy disciplines. Clash-free design with documented interdependency management.
Net-zero pathway analysis, energy modelling and carbon assessment integrated into every design. BREEAM, Estidama and LEED frameworks applied from concept stage.
Performance-based and prescriptive fire safety engineering. Smoke modelling, evacuation analysis and fire strategy development compliant with BS 7974 framework.
Data centre, power and telecom infrastructure engineering to Tier III/IV standards. Resilience-first design with redundancy analysis and capacity planning.
Heating and cooling load calculation methodology using BS EN 12831, CIBSE Guide A parameters and dynamic thermal simulation.
Power distribution design framework from HV/LV assessment through to final circuit design, compliant with BS 7671 and regional codes.
Above and below-ground drainage, domestic water services and rainwater management design methodology aligned to BS EN 12056.
Fire engineering methodology covering means of escape, detection/alarm systems, suppression design and smoke ventilation analysis.
Critical infrastructure design methodology for cooling, power and monitoring systems aligned to EN 50600 and ASHRAE thermal guidelines.
Energy modelling methodology using IES VE, SBEM and dynamic simulation for Part L compliance, BREEAM credits and net-zero pathway analysis.
| Software | Discipline | Application | Standards Alignment |
|---|---|---|---|
| IES VE | Energy | Dynamic thermal simulation & Part L compliance | CIBSE TM54, ASHRAE 140 |
| Hevacomp | Mechanical | Heating & cooling load calculations | BS EN 12831, CIBSE Guide A |
| Amtech | Electrical | Power distribution & cable sizing | BS 7671, IEC 60364 |
| Revit MEP | Multi-Discipline | 3D coordinated design & BIM | BS EN ISO 19650 |
| Navisworks | Coordination | Clash detection & model review | BIM Level 2 |
| AutoCAD MEP | Multi-Discipline | 2D technical documentation | BS 1192 |
| Dialux / Relux | Electrical | Lighting design & compliance | CIBSE SLL, EN 12464 |
| FDS / Pathfinder | Fire | Smoke modelling & evacuation analysis | BS 7974, PD 7974 |
| SBEM / SAP | Energy | Regulatory energy calculations | Part L, EPBD |
| Bluebeam Revu | QA | Document markup & review | ISO 9001 |
Client requirements analysis, applicable standards identification and regulatory framework mapping for the project jurisdiction.
System selection, feasibility assessment and preliminary calculations. Design options evaluated against performance, cost and compliance criteria.
Full engineering calculations, equipment selection, coordinated drawings and specifications. Every parameter documented with standards references.
Independent design review, compliance verification and complete documentation package. O&M manuals, as-built records and commissioning support.
From concept through to handover, our engineering team delivers standards-aligned solutions with full technical documentation across all disciplines.
Engineering the future of critical infrastructure.