Prefab steel cold storage building — PU insulated panel envelope with specialist cold store door and refrigeration plant room
ISO 9001:2015 Certified  ·  IAS AC472 Accredited  ·  10+ Years Delivery

Pre-Engineered Steel Cold Storage Buildings & Industrial Cold Storage Warehouses

KAFA designs and fabricates prefab steel cold storage buildings for food processors, agricultural exporters, seafood processors, and pharmaceutical cold chain operators. Steel frame and complete PU/PIR insulated envelope — thermal calculation included. Initial drawings within 3 business days.

✓ Chill Store to Blast Freeze (−30°C+) ✓ PU & PIR Insulated Panels ✓ Tropical Thermal Calculation ✓ 2,000 MT Monthly Output
Request a Scoping Call
Get Drawings & Quote — 3 Days
Prefab steel cold storage building — PU insulated panel envelope with specialist cold store door and refrigeration plant room
20,000 m² Dedicated Fabrication Facility
2,000 MT Certified Monthly Output
500+ Production & Engineering Staff
3 Days To Thermal Calc & Detailed Quote

The Defining Design Challenge

Why Target Temperature Must Be the First Design Input for Cold Storage Buildings

A cold storage building performs to specification only when the insulated envelope is designed for the combination of internal target temperature and external ambient conditions at the project site. This interaction is more demanding in tropical markets than in temperate ones — and it is the variable most frequently left unconfirmed at the procurement stage.

For a deep freeze facility (−18°C to −25°C) in Lagos, Manila, or Ho Chi Minh City, the envelope temperature differential can reach 55–63 K. Panel thickness adequate for a European chill store is frequently insufficient — the correct specification must be calculated from local climate data, not estimated from a generic table.

◂ Lower envelope load Higher envelope load ▸
Temperate Climate
e.g. Northern Europe, inland East Asia
Standard
25–30 K ΔT

Envelope temperature differential for a standard chill store (0°C to 8°C) against a 30°C summer ambient.

Standard PU panel · 80 mm typical
Tropical Climate
e.g. Lagos, Manila, Ho Chi Minh City
Elevated
38–45 K ΔT

Same chill store facing 38°C ambient + high humidity — substantially higher thermal load requiring thicker panel and higher insulation U-value.

Tropical PU panel · 100 mm minimum
Tropical Blast Freeze
e.g. Coastal seafood processors, SE Asia
Critical
55–63 K ΔT

Deep freeze (−25°C) against a 38°C tropical ambient — the highest envelope thermal load in standard cold store construction. European panel specs are structurally inadequate.

PIR panel · 150–200 mm calculated
Design Stage Lock-in

Five envelope parameters that must be confirmed before any dimension or panel specification is fixed.

  • Target storage temperature confirmed before any dimension or section is fixed
  • Local ambient design temperature and wet-bulb humidity confirmed for tropical thermal calculation
  • Panel thickness calculated per project — not selected from a generic table
  • Continuous vapour barrier and thermal bridge elimination designed from the outset
  • Floor insulation and frost protection system designed for every freezer application

Scope of Supply

What KAFA Provides for Cold Storage Construction — and What the Client Procures Separately

A cold storage building consists of three distinct engineering systems. KAFA’s scope covers the structural envelope and insulation. Mechanical refrigeration must be procured separately — and coordinated with our structural design before fabrication begins.

KAFA Delivers

Structural Envelope & Insulation System

  • Insulated Envelope System

    PU or PIR insulated sandwich panels for roof and wall envelope, calculated from target temperature and local ambient conditions. Panel joints inspected for thickness tolerance, face sheet adhesion, and cam-lock integrity before container packing.

    PU panels: chill stores and standard freezer (−18°C to −25°C). PIR panels: blast freezer rooms, pharmaceutical facilities, coastal high-humidity sites.

  • Floor Insulation & Vapour Barrier

    For freezer buildings at −18°C or below, floor insulation and sub-slab frost protection is a structural safety prerequisite. Without it, ground moisture freezes and heaves the slab — typically within two to three years of commissioning.

    Continuous vapour barrier on the warm side of insulation is required throughout. Thermal bridge elimination detailed at all panel joints, door frames, and column penetrations.

  • Plant Room Structural Provisions

    Equipment base sizing, roof loading for rooftop condensers, refrigerant pipe penetrations with correctly detailed thermal break sleeves, and electrical conduit routes — designed into the frame and coordinated with confirmed refrigeration layout.

    Plant room provisions cannot be cost-effectively modified after fabrication — confirmed at requirements intake.

Supplied complete: structural steel frame, insulated envelope, floor insulation system, vapour barrier, and plant room structural provisions — engineered as one coordinated package.
Client Procures Separately

Mechanical Refrigeration

  • Compressors & Condensing Units

    Selection and sizing by the refrigeration contractor based on heat load calculations, refrigerant choice, and operating duty cycle.

  • Evaporators & Refrigerant Pipework

    In-room evaporator coils, suction and liquid lines, insulation of refrigerant piping, and expansion device installation.

  • Controls & Monitoring

    Temperature control logic, defrost scheduling, alarms, and any validation-grade monitoring required for pharmaceutical or GMP applications.

Coordination required: we strongly recommend confirming your refrigeration supplier and sharing their equipment layout before structural design is finalised — so plant room provisions are incorporated from the outset.

Delivery Process

From Thermal Brief to Installed Insulated Structure

Five defined stages — requirements intake through container export — managed by a single team. The thermal specification confirmed at inquiry is the envelope performance delivered to your site.

01
Day 0

Requirements Intake

Stored product type, target temperature, storage capacity, blast freeze requirement, refrigeration supplier status, site country, and target commissioning date.

02
3 Business Days

Thermal Calc & Quotation

Thermal calculation, structural design, panel specification, floor insulation design, plant room provisions, and detailed price proposal within 3 business days of confirmed parameters.

03
20–30 Days

Fabrication

Structural steel and insulated panel systems manufactured under ISO 9001:2015 QMS. Panels inspected for thickness, face sheet adhesion, and cam-lock joint integrity before container packing.

04
Transit

Container Export

Modular container packing and export documentation coordinated to your destination port — Nigeria, Kenya, Vietnam, Indonesia, Thailand, Philippines, and beyond.

05
~45 Days

Installation

Structural erection and panel envelope installation. Refrigeration equipment installation by client’s contractor follows as a separate phase. Multi-zone projects may require extended installation time.

Timelines confirmed in writing at scoping based on project scale, production queue, and site conditions.

Specification Errors to Avoid

Where Cold Storage Warehouse Projects Fail — Three Errors with Predictable Consequences

All three errors stem from treating a cold store as a variant of a standard warehouse rather than a purpose-engineered temperature-controlled facility with distinct envelope and floor requirements.

01
Error

Converting a Warehouse into a Cold Store

The Error Pattern

A standard warehouse envelope has thermal transmittance many times higher than a correctly specified cold store envelope. Refrigeration equipment installed in an uninsulated warehouse must run continuously at maximum capacity — and typically cannot achieve the temperature uniformity required for food safety. Operating energy cost is commercially prohibitive; food safety outcome is unreliable.

How We Prevent It

A cold store requires a purpose-built insulated envelope from the foundation slab to the roof — not a retrofittable specification. Where a project starts with an existing warehouse, we flag it at scoping rather than accept a configuration that cannot deliver temperature.

02
Error

Standard Concrete Floor in a Freezer Building

The Error Pattern

In a freezer facility at −18°C or below, moisture beneath an uninsulated floor slab freezes, expands, and causes the concrete to heave and crack. This structural failure typically becomes visible within two to three years of commissioning — and requires costly floor reconstruction with the facility out of service.

How We Prevent It

Floor insulation and sub-slab frost protection must be designed and installed as part of original foundation construction — it cannot be added after the slab is poured. We produce a floor insulation design for every cold storage project as part of the structural proposal.

03
Error

Estimating Panel Thickness Instead of Calculating

The Error Pattern

In tropical markets, a panel thickness adequate for a European chill store is frequently insufficient to achieve the energy efficiency target in local ambient conditions. Applying a European standard thickness to a tropical cold store results in underperformance against target temperature or higher-than-planned refrigeration energy consumption.

How We Prevent It

We produce a thermal calculation for every project before issuing a panel specification — based on confirmed target temperature, local design ambient temperature, wet-bulb humidity, and required refrigeration energy efficiency. See the panel specification reference table below.

Reference · Error 03

Panel specification reference — by temperature zone and application

Temperature Zone Target Range Typical Applications Panel Type Indicative Thickness (Tropical)
Chill Store 0°C to 8°C Fresh produce, dairy, beverages, pharmaceuticals (non-frozen) PU 80 – 100 mm
Standard Freezer −18°C to −25°C Frozen food, fish & seafood, meat, ice cream PU or PIR 100 – 150 mm
Blast Freezer Room −30°C to −40°C Rapid product freezing prior to frozen storage PIR 150 – 200 mm
Pharmaceutical Cold Store 2°C to 8°C Vaccines, biologics, temperature-sensitive medicines PIR (fire rated) 100 – 120 mm
Controlled Atmosphere 0°C to 4°C Long-term fresh fruit & vegetable storage PU or PIR 100 – 130 mm

All thickness figures are indicative planning references only. Actual panel thickness calculated per project from confirmed target temperature, local ambient conditions, and required energy efficiency.

From Design to Handover

Our Delivery Process

01 · Step
Design

Steel Building Design

Structural drawings and load calculations delivered within 3 business days from confirmed site dimensions, location, and intended use.

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02 · Step
Plans

Metal Building Plans

Standard and custom floor plan configurations for warehouses, workshops, hangars, and industrial facilities across common clear-span ranges.

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03 · Step
Colors

Metal Building Colors

Colour coating options for wall panels and roof sheets — including Colorbond-equivalent finishes and custom RAL matching for commercial projects.

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04 · Step
Components

Metal Building Components

Primary frames, secondary members, roof and wall cladding, gutters, doors, and windows — all fabricated in-house to ISO 9001:2015 standards.

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05 · Step
Insulation

Metal Building Insulation

PU, PIR, rock wool, and glass wool systems specified by climate zone — from tropical ambient buildings to cold storage facilities at −25 °C.

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06 · Step
Construction

Metal Building Construction

45-day on-site erection programme from foundation handover to structural completion, covering anchor bolt setting, frame erection, and cladding.

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07 · Step
Foundation

Metal Building Foundation

Anchor bolt layout drawings, concrete grade and dimension requirements, and ±3 mm placement tolerances provided with every structural package.

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08 · Step
Site Prep

Site Preparation

Ground levelling, drainage gradient, access road, and temporary power requirements confirmed before steel components leave the fabrication facility.

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09 · Step
Erection

Metal Building Erection

6-stage installation sequence: foundation verification, column erection, rafter setting, bracing installation, cladding, and final handover inspection.

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Projects Delivered

Steel Cold Storage Building Projects Across Food Processing, Agricultural Export and Pharmaceutical

Representative examples across temperature zones and markets. Client-specific details withheld where confidentiality applies.

Industrial refrigerated warehouse — seafood cold storage building with PIR panel envelope and blast freezer zone, Southeast Asia
Fish & Seafood Southeast Asia

Seafood Processor — Blast Freeze & Frozen Storage

Two-zone facility for a coastal seafood exporter. PIR panels specified for both zones due to coastal high-humidity environment and ultra-low blast temperature. Thermal calculation based on local wet-bulb temperature of 29°C. Floor insulation and frost protection coordinated with foundation design before slab pour.

Area: 1,200 m² Blast Freeze: −35°C Frozen Store: −22°C Panel: PIR
Large cold storage complex — agricultural export multi-temperature chill and freezer warehouse, Sub-Saharan Africa
Agricultural Export Sub-Saharan Africa

Agricultural Export Cold Chain Hub — Multi-Temperature

Three-zone cold chain facility: chill zone at 4°C for fresh produce, frozen zone at −20°C for processed goods, and a loading antechamber at 12°C. PU panels throughout. Refrigeration plant room provisions coordinated with confirmed equipment layout before fabrication. Frost heave protection designed for the freezer zone floor slab.

Area: 2,400 m² Chill: 4°C Freeze: −20°C Zones: 3
Cold storage building for sale — pharmaceutical cold chain PIR fire-rated panel structure at 2–8°C, Middle East
Pharmaceutical Middle East

Pharmaceutical Cold Chain Storage Facility

Cold store at 2°C to 8°C for a vaccine and biologics distributor. PIR fire-rated panels for pharmaceutical fire safety compliance. Structural drawings submitted to local civil authority with load calculations. Plant room provisions designed around the client’s confirmed GMP-compatible refrigeration system layout before fabrication.

Area: 800 m² Target: 2°C – 8°C Panel: PIR Fire Rated Thickness: 120 mm

Project Fit

Who This Service Is Designed For — and Where It Is Not the Right Fit

Suitable Projects
  • Food processors, agricultural produce exporters, and cold chain logistics operators requiring chill stores (0–8°C) to standard frozen stores (−18°C to −25°C)
  • Agribusiness operators combining cold storage infrastructure with adjacent agricultural steel buildings for integrated farm-to-cold-chain operations on the same site
  • Fish and seafood processors requiring blast freezer rooms (−30°C to −40°C) and frozen storage — 500 m² to 5,000 m²
  • Pharmaceutical cold chain facilities requiring 2°C to 8°C PIR fire-rated panel envelopes
  • Multi-temperature cold store complexes with separate chill and freezer zones under one roof or in adjacent bays
  • Clients who have a qualified refrigeration contractor engaged or in the process of engagement — plant room provisions coordinated with confirmed equipment layouts
  • Projects in Africa, Southeast Asia, and the Middle East where container shipping to a major port is viable and local foundation contractors are available on-site
Most of our cold storage projects fall between 500 m² and 5,000 m² in insulated floor area, with target temperatures from 2°C chill store to −40°C blast freezer.
Outside Our Scope
  • Mechanical refrigeration equipment — compressors, condensers, evaporators, refrigerant pipework, and control systems — must be procured and installed by a qualified refrigeration contractor engaged separately
  • Retrofitting refrigeration into an existing standard warehouse — this is not a viable configuration regardless of refrigeration plant capacity
  • Ultra-low temperature pharmaceutical cold chain requiring validated temperature monitoring systems, GMP-grade internal finishes, and regulatory audit documentation — confirm specific requirements before finalising scope
If your project falls outside our standard scope, we say so clearly during scoping rather than accept a project we cannot deliver to specification.

Verified Project Outcomes

What Cold Chain Clients Say — and What the Projects Delivered

Every quote below is drawn from a completed cold storage project. Engineering challenge, structural outcome, and client response are presented together so you can assess the result, not just the sentiment.

Day 1
Commissioned at target temperature — no remediation required before first operation
0
Floor heave incidents across all delivered freezer facilities to date
2+
Full export seasons operating within temperature specification without structural intervention
Fish & Seafood Processor Southeast Asia · Coastal Site
1,200 m² −35°C Blast Freeze −22°C Frozen Store PIR Panel · C4 Coastal
Engineering Challenge

Coastal high-humidity site with wet-bulb ambient of 29°C. Two temperature zones required simultaneous commissioning. Refrigeration contractor’s equipment layout needed structural coordination before fabrication could begin. Standard panel thickness insufficient for local thermal conditions.

KAFA Engineering Note

“At 29°C wet-bulb, the vapour pressure differential across a standard PU cam-lock joint is high enough to risk condensation at the panel interface over time. We specified PIR across both zones not primarily for temperature performance — the thermal calculation would have accepted 150 mm PU — but for the joint’s long-term moisture resistance at this corrosivity class. That decision is made at the panel selection stage or not at all.”

— KAFA Cold Storage Engineering Team
Verified Outcomes
Facility commissioned at target temperature on Day 1 of operation
No thermal bridging failures detected at panel joints or column penetrations
No floor heave detected — frost protection system performing as designed

“KAFA confirmed target temperature, produced the thermal calculation, and coordinated plant room provisions with our refrigeration contractor before a single panel was fabricated. The facility commissioned at temperature on the first day — no thermal bridging issues, no floor heave.”

Nguyen Thanh Hai
Operations Director · Seafood Processing & Export, Vietnam
Agricultural Export Cold Chain Sub-Saharan Africa
2,400 m² 4°C Chill Zone −20°C Frozen Zone 3 Temperature Zones · PU Panel
Engineering Challenge

Three separate temperature zones — chill, frozen, and loading antechamber — under one structural roof, each requiring its own panel specification and insulated partition wall. Frost heave protection required for the freezer zone floor. Refrigeration plant room provisions designed around confirmed GMP-compatible equipment layout.

KAFA Engineering Note

“The partition wall between the −20°C zone and the 4°C chill zone is the detail most commonly under-specified in multi-zone projects. The temperature differential across that internal wall is 24 K — enough to drive condensation into an under-insulated partition over time. We treated it as a full envelope element: 100 mm PU with a continuous vapour barrier on the warm face. That’s not a default specification — it’s calculated for each zone boundary individually.”

— KAFA Cold Storage Engineering Team
Verified Outcomes
All three zones operating within temperature specification from first season
Two full export seasons completed without structural intervention or remediation
Freezer floor slab structurally intact — frost protection design confirmed effective

“The quality of their steel structures is outstanding. We would not hesitate to engage them for future projects. The multi-zone cold chain hub has operated within temperature specification through two full export seasons.”

Emeka Okafor
Procurement & Facilities Manager · Industrial Solutions Ltd., Nigeria

Manufacturing Credentials

Certifications, Accreditations, and Production Capacity

All certifications independently audited and publicly verifiable. Documentation provided on request at the scoping stage.

ISO 9001:2015 Certified

Certified quality management system covering structural fabrication, insulated panel manufacture, thickness and adhesion inspection, and component quality controls across our 20,000 m² fabrication facility. Certification documentation provided on request.

IAS AC472 Accredited

International Accreditation Service accreditation — independently audited confirmation that our production and engineering meet defined benchmarks for metal building system manufacturers. Accreditation documentation provided on request.

10+ Years International Delivery

Engineering team experience across food processing, fisheries, pharmaceutical, and agricultural export projects in Africa, Southeast Asia, and the Middle East. Tropical thermal loads accounted for in design calculation — not discovered after commissioning.

Frequently Asked Questions

Technical and Commercial Questions, Answered Directly

No. KAFA’s scope of supply covers the steel structural frame and the complete insulated building envelope: primary steel frame, PU or PIR insulated wall and roof panels, floor insulation system, specialist cold store door provisions, and refrigeration plant room structural provisions. Mechanical refrigeration equipment — compressors, condensers, evaporators, refrigerant pipework, and control systems — must be procured and installed by a qualified refrigeration contractor engaged separately by the client. We strongly recommend confirming the refrigeration supplier and sharing their equipment layout with our team before structural design is finalised.

A standard warehouse envelope has thermal transmittance many times higher than a correctly specified cold store envelope. Refrigeration equipment installed in an uninsulated warehouse must work continuously at maximum capacity to partially compensate for the heat gain — and typically cannot achieve the temperature uniformity required for food safety. The operating energy cost is commercially prohibitive, and the food safety outcome is unreliable. A cold store requires a purpose-built insulated envelope from the foundation slab through to the roof. This is not a retrofittable specification.

In a freezer facility operating at −18°C or below, moisture in the ground beneath an uninsulated floor slab freezes, expands, and causes the concrete to heave and crack — a structural failure that typically becomes visible within two to three years of commissioning and requires costly floor replacement. The floor insulation and sub-slab frost protection system must be designed and installed as part of the original foundation construction. We produce a floor insulation design for every cold storage project as part of the structural proposal.

PU (polyurethane) panels are the standard specification for chill stores and conventional freezer stores (−18°C to −25°C) in most operating environments — good thermal performance at lower panel cost. PIR (polyisocyanurate) panels offer higher fire resistance — required for pharmaceutical cold stores with fire safety regulations and for large food processing cold stores — and better dimensional stability at ultra-low temperatures below −30°C, making them the specification for blast freezer rooms. PIR also performs better in high-humidity coastal environments. We specify panel type based on temperature zone, fire safety requirements, and operating environment, and include the recommendation in every design proposal.

Panel thickness must be calculated for each project, not selected from a generic table. The correct thickness depends on the target temperature zone, the local outdoor design temperature and humidity at the project site, the required refrigeration energy efficiency, and the operating pattern of the facility. In tropical markets — where outdoor ambient temperatures are significantly higher than in Europe or North America — the panel thickness required to achieve the same thermal performance is greater than the equivalent European specification. We produce a thermal calculation for every project before issuing a panel specification.

Yes. Multi-temperature cold store complexes with separate chill and freezer zones under one structural roof, or in adjacent bays, are within our standard delivery scope. Each temperature zone requires its own insulated panel specification matched to its target temperature, and the internal partition wall between temperature zones must also be insulated to prevent heat transfer between zones. Zone partition wall specification, door systems at zone interfaces, and refrigeration plant room arrangement for multiple zones must all be declared at requirements intake.

Start Your Project

Thermal Calculation & Proposal in 3 Business Days

Share your stored product type, target temperature zone, storage capacity, blast freeze requirement, refrigeration supplier status, site country and city, and target commissioning date. Our engineering team responds with a thermal calculation and detailed price proposal within 3 business days.

Request a Scoping Call

Submit Requirements Directly

Ready to Send Your Cold Storage Brief?

Facilities that commission cleanly are the ones where target temperature, floor insulation requirements, and refrigeration plant room provisions were all confirmed in the first design exchange. Submit your requirements now.

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