Our Projects
A showcase of our work
Trusted by Industry Leaders
Proven performance across sectors
Engineered for Harsh Environments
Durable, reliable, and certified
Delivered with Precision
From consultation to execution
Project Portfolio
A showcase of our major applications using advanced SPI Coatings technologies.
The Address Hotel – Emaar – Dubai United Arab Emirates
Refresh Global applied Super Therm® to the roof of the Dubai Address Hotel to reduce heat load, improve thermal efficiency, and enhance long-term building performance under extreme Gulf temperatures.
Environmental Exposure Conditions
- Extreme rooftop temperatures exceeding 80°C during peak summer.
- High UV radiation requiring long-term color and film stability.
- Thermal cycling causing expansion and contraction of roof substrates.
Materials Used: Super Therm®
Coating System Architecture
- Super Therm® blocks 95% IR, 99% UV, and 92% visual light heat.
- Reduces HVAC load and energy consumption.
Application Methodology
- Surface cleaning and preparation.
- Uniform spray application for consistent film thickness.
- Final inspection for film continuity and reflectivity.
Scope: Full Super Therm® application on the hotel roof.
Performance Outcomes
- Significant reduction in rooftop heat absorption.
- Lower HVAC energy demand.
- Extended roof membrane lifespan
Mohamed Bin Zayed University of Artificial Intelligence
Refresh Global provided corrosion protection and waterproofing solutions for MBZUAI’s basement structures, ensuring long-term durability and resistance to moisture ingress in critical below-grade environments.
Environmental Exposure Conditions
- High groundwater pressure around basement walls.
- Moisture migration through concrete substrates.
- Chemical exposure from soil salts and groundwater contaminants.
Materials Used: Rust Grip®, SP Liquid Membrane
Coating System Architecture
- Rust Grip® provides 15,000+ hours salt-fog resistance and 6,780 psi tensile strength.
- SP Liquid Membrane is a flexible, ceramic-reinforced waterproofing system engineered for below‑grade structures.
Application Methodology
- Surface cleaning and preparation of concrete substrates.
- Rust Grip® applied as a base layer to seal and strengthen surfaces.
- SP Liquid Membrane applied as a seamless waterproofing barrier.
- Final QA/QC inspection for adhesion, continuity, and moisture resistance.
Scope: Waterproofing and corrosion control for basement structures.
Performance Outcomes
- Eliminated moisture ingress into basement areas.
- Improved structural durability and corrosion resistance.
- Long-term protection with minimal maintenance requirements.
ADNOC Fertilizer – Ruwais \ Abu Dhabi, United Arab Emirates
Refresh Global applied SP Liquid Membrane to warehouse roof structures at ADNOC Fertilizer Ruwais, delivering long-term waterproofing performance under harsh industrial and coastal conditions.
Environmental Exposure Conditions
- High rooftop temperatures due to direct Gulf sunlight.
- Industrial airborne contaminants from fertilizer production.
- Seasonal rainfall and moisture accumulation on roof surfaces.
Materials Used: SP Liquid Membrane
Coating System Architecture
- SP Liquid Membrane: A flexible, ceramic‑reinforced waterproofing system forming a seamless monolithic barrier capable of bridging cracks and resisting long‑term UV exposure.
- Engineered for industrial rooftops requiring high elasticity and chemical resistance.
Application Methodology
- Surface cleaning and preparation to remove dust and contaminants.
- Multiple coats applied to achieve required dry film thickness.
- Final inspection for membrane continuity and adhesion.
Scope: Roof waterproofing of warehouse structures.
Performance Outcomes
- Improved waterproofing reliability under industrial conditions.
- Extended roof lifespan due to enhanced protection.
- Reduced maintenance and long-term operational costs.
ADNOC Logistics Services – LNG Fleet Maintenance Program
Refresh Global executed a long-term coating integrity and corrosion‑mitigation program for ADNOC’s LNG fleet, ensuring structural protection, reduced maintenance cycles, and enhanced operational reliability across multiple vessels.
Environmental Exposure Conditions
- High salinity marine atmosphere.
- UV radiation from intense Gulf sunlight.
- Splash‑zone wet/dry cycling on hull surfaces.
- Mechanical abrasion from cargo operations.
- Hydrocarbon exposure during loading/unloading.
Materials Used: Rust Grip®, Enamo Grip®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip®: Penetrating moisture‑cure urethane with 6,780 psi tensile strength and 15,000+ hours salt‑fog resistance.
- Enamo Grip®: UV‑stable polyurethane topcoat for long‑term gloss and color retention.
- Enamo Grip® 5000: High‑build abrasion‑resistant finish for high‑traffic and impact zones.
Application Methodology
- SSPC‑SP2/SP3 surface preparation on marginal steel.
- Rust Grip® applied to encapsulate and reinforce steel surfaces.
- DFT gauge monitoring for system compliance.
- Airless spray application of topcoats.
- Final QA/QC inspection for adhesion, continuity, and film integrity.
Vessels Serviced: Barakah, Mubaraz, Mraweh, Umm Al Asthan, Al Hamra, Ghashah, Khaznah, ISH, Shahamah
Performance Outcomes
- Reduced corrosion rates across hull and deck structures.
- Extended maintenance intervals and reduced downtime.
- Improved long-term structural integrity.
- Lower lifecycle cost of vessel maintenance.
- Enhanced visual appearance and coating durability.
ADNOC Drilling – Ruwais Tanks
Refresh Global is executing a long-term coating and maintenance program for ADNOC Drilling’s tank farm in Ruwais, covering mud tanks, storage tanks, and auxiliary steel structures. The program focuses on corrosion mitigation, thermal load reduction, and lifecycle extension of critical drilling infrastructure.
Environmental Exposure Conditions
- High salinity and airborne chlorides from coastal industrial zones.
- Extreme surface temperatures exceeding 75–85°C on tank exteriors.
- Continuous UV exposure requiring long-term color and film stability.
- Hydrocarbon vapors and chemical contaminants from drilling operations.
Materials Used: Rust Grip®, Super Therm®
Coating System Architecture
- Rust Grip®: Moisture-cure urethane penetrating into steel pores to encapsulate corrosion. Provides 6,780 psi tensile strength and 15,000+ hours salt-fog resistance.
- Super Therm®: Ceramic-based insulation coating blocking 95% of infrared heat and reducing tank surface temperatures to improve thermal efficiency.
Application Methodology
- Surface preparation to SSPC-SP2/SP3 standards due to operational constraints.
- Rust Grip® applied to encapsulate corrosion and reinforce steel substrates.
- Super Therm® applied as a thermal barrier to reduce heat load on tank surfaces.
- DFT verification and QA/QC inspection for system compliance.
Scope: Maintenance and coating of tanks 1–45 including mud tanks and storage tanks.
Performance Outcomes
- Significant reduction in corrosion progression across tank surfaces.
- Lower tank surface temperatures and improved operational efficiency.
- Extended maintenance intervals and reduced lifecycle cost.
American University of Sharjah
Refresh Global converted a standard shipping container into a fully insulated, corrosion-protected office unit for the American University of Sharjah. The project combined corrosion encapsulation and thermal insulation to create a durable, energy-efficient workspace.
Environmental Exposure Conditions
- High external temperatures and direct solar radiation.
- Condensation risk inside metal structures.
- Thermal bridging common in steel containers.
Materials Used: Rust Grip®, Super Therm®
Coating System Architecture
- Rust Grip®: Applied to all steel surfaces to encapsulate corrosion and reinforce the container structure.
- Super Therm®: Applied internally and externally to reduce heat transfer and improve occupant comfort.
Application Methodology
- Surface cleaning and preparation of container steel panels.
- Rust Grip® applied to seal and strengthen steel substrates.
- Super Therm® applied to create a thermal barrier and reduce heat load.
- Final QA/QC inspection for adhesion, film thickness, and insulation performance.
Scope: Conversion of shipping container into a fully insulated office unit.
Performance Outcomes
- Significant reduction in internal temperature.
- Improved comfort and energy efficiency.
- Long-term corrosion protection for steel surfaces.
ADNOC ASAB Offshore – Ruwais, Abu Dhabi United Arab Emirates
Refresh Global delivered corrosion control and protective coating works for ADNOC ABSA’s basement structures and critical assets in Ruwais. The project focused on long-term steel preservation, chemical resistance, and structural durability in a demanding industrial environment.
Environmental Exposure Conditions
- High humidity and moisture accumulation in basement zones.
- Exposure to industrial chemicals and airborne contaminants.
- Limited ventilation requiring moisture-cure coating systems.
Materials Used: Enamo Grip®, Rust Grip®
Coating System Architecture
- Rust Grip®: Applied as a corrosion-encapsulation base layer, sealing steel surfaces against moisture and chemical attack.
- Enamo Grip®: High-gloss aliphatic polyurethane providing UV stability, chemical resistance, and long-term durability.
Application Methodology
- Surface preparation of steel and concrete substrates.
- Rust Grip® applied to encapsulate corrosion and reinforce surfaces.
- Enamo Grip® applied as a protective topcoat for long-term durability.
- Final QA/QC inspection for adhesion, DFT, and coating continuity.
Scope: Corrosion control and protective coating works on basement structures and critical assets.
Performance Outcomes
- Improved corrosion resistance in high-moisture environments.
- Enhanced structural durability and long-term asset protection.
- Reduced maintenance frequency and lifecycle cost.
ADNOC Offshore – Structural Platforms & Jackets Integrity Program
Refresh Global executed a multi‑year corrosion‑mitigation and structural preservation program for ADNOC Offshore, covering fixed platforms, riser guards, conductor pipes, and splash‑zone steel. The project focused on extending asset life, reducing corrosion rates, and ensuring compliance with offshore integrity standards under harsh marine exposure.
Environmental Exposure Conditions
- High salinity and chloride deposition from open-sea conditions.
- Continuous wet/dry cycling accelerating corrosion in splash zones.
- Intense UV radiation requiring long-term topcoat stability.
- Mechanical abrasion from equipment and offshore operations.
- Hydrocarbon exposure from production activities.
Materials Used: Rust Grip®, Moist Metal Grip®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip®: Penetrates steel pores to encapsulate corrosion, forming a reinforced matrix with 6,780 psi tensile strength and 15,000+ hours ASTM B117 salt‑fog resistance.
- Moist Metal Grip®: Two‑component epoxy engineered for underwater and splash‑zone environments.
- Enamo Grip® 5000: High‑build aliphatic polyurethane providing UV stability and abrasion resistance.
Application Methodology
- SSPC‑SP2/SP3 mechanical cleaning under offshore constraints.
- Rust Grip® applied to encapsulate corrosion and reinforce steel.
- Moist Metal Grip® applied in immersion and splash‑zone areas.
- Enamo Grip® 5000 applied as a UV‑stable, abrasion‑resistant topcoat.
- DFT verification, adhesion testing, and QA/QC documentation.
Scope: Offshore platforms, riser guards, conductor pipes, walkways, and splash‑zone steel.
Performance Outcomes
- Significant reduction in corrosion rates across offshore structures.
- Extended maintenance intervals and reduced downtime.
- Improved structural integrity under harsh marine exposure.
- Long-term UV and chemical resistance ensuring coating longevity.
ADNOC Onshore – Storage Tanks & Pipeline Integrity Program
Refresh Global delivered a comprehensive coating and corrosion‑mitigation program for ADNOC Onshore’s storage tanks, pipeline networks, and associated steel infrastructure. The project focused on long‑term corrosion resistance, thermal load reduction, and structural preservation under harsh desert and industrial operating conditions.
Environmental Exposure Conditions
- Extreme desert temperatures exceeding 55–60°C on exposed steel surfaces.
- High UV radiation requiring long-term topcoat stability.
- Sand abrasion and airborne particulates causing mechanical wear.
- Hydrocarbon vapors and chemical contaminants from onshore operations.
- Thermal cycling causing expansion and contraction of tank shells and pipelines.
Materials Used: Rust Grip®, Super Therm®, Moist Metal Grip® (where required)
Coating System Architecture
- Rust Grip® (Base Layer): Moisture‑cure urethane penetrating into steel pores to encapsulate corrosion. Provides 6,780 psi tensile strength and 15,000+ hours ASTM B117 salt‑fog resistance.
- Super Therm® (Thermal Barrier): Ceramic‑based insulation coating blocking 95% of infrared heat and reducing tank surface temperatures by up to 30–40°C.
- Moist Metal Grip® (Optional Immersion Layer): Applied on areas exposed to moisture, condensation, or chemical splash zones.
Application Methodology
- Surface preparation to SSPC‑SP2/SP3 standards due to operational constraints.
- Rust Grip® applied to encapsulate corrosion and reinforce steel substrates.
- Super Therm® applied to reduce thermal load and improve energy efficiency.
- Moist Metal Grip® applied in high‑moisture or chemical exposure zones.
- DFT verification, adhesion testing, and QA/QC documentation for each coating layer.
Scope: Coating and corrosion control for storage tanks, pipeline sections, manifolds, supports, and associated steel infrastructure across ADNOC Onshore facilities.
Performance Outcomes
- Significant reduction in corrosion progression across tank shells and pipelines.
- Lower surface temperatures improving operational efficiency and safety.
- Extended maintenance intervals and reduced lifecycle cost.
- Improved structural integrity under extreme desert conditions.
Saudi Aramco – Gas Plants & Industrial Facilities Integrity Program
Refresh Global delivered a high‑performance coating and corrosion‑mitigation program for Saudi Aramco’s gas processing plants and industrial facilities. The project focused on protecting steel structures, pipelines, manifolds, and equipment exposed to aggressive chemical environments, high temperatures, and continuous operational stress.
Environmental Exposure Conditions
- High concentrations of H₂S, CO₂, and industrial chemical vapors.
- Thermal cycling from hot process lines and equipment.
- Sand abrasion and airborne particulates in desert environments.
- UV exposure and extreme heat affecting external structures.
- Condensation and moisture accumulation on cold lines and shaded areas.
Materials Used: Rust Grip®, Moist Metal Grip®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip® (Base Layer): Moisture‑cure urethane penetrating into steel pores to encapsulate corrosion. Provides 6,780 psi tensile strength and 15,000+ hours ASTM B117 salt‑fog resistance.
- Moist Metal Grip® (Chemical‑Resistant Layer): Two‑component epoxy engineered for immersion, chemical splash zones, and high‑moisture environments.
- Enamo Grip® 5000 (Topcoat): High‑build aliphatic polyurethane offering UV stability, abrasion resistance, and long‑term gloss retention.
Application Methodology
- Surface preparation to SSPC‑SP2/SP3 standards due to operational constraints.
- Rust Grip® applied to encapsulate corrosion and reinforce steel substrates.
- Moist Metal Grip® applied in chemical exposure zones and high‑moisture areas.
- Enamo Grip® 5000 applied as a UV‑stable, chemical‑resistant topcoat.
- DFT verification, adhesion testing, and QA/QC documentation for each coating layer.
Scope: Corrosion control and protective coating of gas plant structures, pipelines, manifolds, equipment skids, and industrial steel assets across Aramco facilities.
Performance Outcomes
- Enhanced corrosion resistance in high‑H₂S and chemical exposure environments.
- Extended service life of pipelines, structures, and equipment.
- Reduced maintenance frequency and operational downtime.
- Improved coating performance under extreme desert and industrial conditions.
QatarEnergy – LNG Terminals & Loading Arms Integrity Program
Refresh Global delivered a high‑performance coating and corrosion‑mitigation program for QatarEnergy’s LNG export terminals, loading arms, jetty structures, and cryogenic transfer systems. The project focused on protecting steel assets exposed to saltwater immersion, cryogenic temperatures, chemical vapors, and continuous mechanical stress during LNG loading operations.
Environmental Exposure Conditions
- Saltwater immersion and splash‑zone corrosion on jetty structures.
- Cryogenic temperature cycling during LNG loading and unloading.
- Exposure to hydrocarbons, LNG vapors, and chemical contaminants.
- High UV radiation and extreme Gulf coastal temperatures.
- Mechanical abrasion from loading arms, hoses, and operational equipment.
Materials Used: Rust Grip®, Moist Metal Grip®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip® (Primary Encapsulation Layer): Penetrates steel pores to encapsulate corrosion, forming a reinforced matrix with 6,780 psi tensile strength and 15,000+ hours ASTM B117 salt‑fog resistance.
- Moist Metal Grip® (Cryogenic & Immersion Layer): Two‑component epoxy engineered for immersion, splash‑zone, and cryogenic exposure.
- Enamo Grip® 5000 (Topcoat): High‑build aliphatic polyurethane providing UV stability, abrasion resistance, and long‑term gloss retention.
Application Methodology
- Surface preparation to SSPC‑SP2/SP3 standards due to operational constraints.
- Rust Grip® applied to encapsulate corrosion and reinforce steel substrates.
- Moist Metal Grip® applied in immersion, splash‑zone, and cryogenic exposure areas.
- Enamo Grip® 5000 applied as a UV‑stable, chemical‑resistant topcoat.
- DFT verification, adhesion testing, and QA/QC documentation for each layer.
Scope: LNG loading arms, jetty structures, cryogenic transfer lines, access platforms, and marine steel infrastructure.
Performance Outcomes
- Improved corrosion resistance in marine and cryogenic environments.
- Extended service life of loading arms and jetty structures.
- Reduced maintenance frequency and operational downtime.
- Enhanced coating performance under extreme temperature cycling.
SPI Coatings – Train Station Infrastructure, India
Refresh Global supplied and applied SPI Coatings systems for a major train station infrastructure project in India, focusing on corrosion protection, thermal insulation, and long-term durability of steel structures, roofing systems, and passenger platform assets.
Environmental Exposure Conditions
- High humidity and moisture during monsoon seasons.
- UV radiation and extreme heat affecting roof structures.
- Pollution, dust, and airborne contaminants in urban rail environments.
- Mechanical abrasion from foot traffic and equipment.
- Condensation and corrosion risk on elevated steel walkways.
Materials Used: Rust Grip®, Super Therm®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip®: Moisture‑cure urethane providing 6,780 psi tensile strength and 15,000+ hours salt‑fog resistance.
- Super Therm®: Ceramic insulation coating blocking 95% infrared heat and reducing roof temperatures by 30–40°C.
- Enamo Grip® 5000: UV‑stable, abrasion‑resistant polyurethane topcoat.
Application Methodology
- SSPC‑SP2/SP3 surface preparation.
- Rust Grip® applied to steel beams and canopy structures.
- Super Therm® applied to roofing systems.
- Enamo Grip® 5000 applied as a durable topcoat.
- DFT verification and QA/QC documentation.
Scope: Roofing, steel canopies, pedestrian bridges, platform structures, and supporting steel infrastructure.
Performance Outcomes
- Reduced corrosion across steel structures.
- Lower roof temperatures improving passenger comfort.
- Extended service life of public infrastructure.
- Reduced maintenance frequency and lifecycle cost.
Tucson International Airport – Roof Energy Optimization
SPI Coatings delivered a high‑performance thermal insulation and corrosion control system for Tucson International Airport’s roofing infrastructure. The project focused on reducing air conditioning energy consumption, improving roof durability, and enhancing thermal comfort inside terminal buildings.
Environmental Exposure Conditions
- Extreme rooftop temperatures exceeding 80°C during Arizona summers.
- High UV radiation requiring long-term color and film stability.
- Thermal cycling and radiative heat load from flat roof surfaces.
Materials Used: Super Therm®, Rust Grip®, Enamo Grip®
Coating System Architecture
- Super Therm®: Ceramic-based insulation coating blocking 95% IR heat, 99% UV, and 92% visual light heat.
- Rust Grip®: Encapsulates corrosion and reinforces steel substrates.
- Enamo Grip®: UV-stable topcoat for gloss retention.
Application Methodology
- Power washing and surface cleaning.
- Super Base (HS) primer + Super Therm® application.
- Rust Grip® and Enamo Grip® on metal surfaces.
- Final QA/QC inspection.
Scope: Thermal insulation and corrosion control for 114,240 m² of roofing.
Performance Outcomes
- 40% reduction in air conditioning energy costs.
- Improved internal temperature stability.
- Extended roof lifespan and reduced maintenance.
Bako Train Station – Structural Protection & Thermal Efficiency Upgrade
Refresh Global applied SPI Coatings systems for the Bako Train Station upgrade, inspired by the Baku Metro Tunnel success. The project focused on corrosion encapsulation, thermal insulation, and lifecycle extension of exposed and underground steel assets. Coatings were selected for their surface tolerance, fast curing, and proven performance in high‑humidity operational environments.
Environmental Exposure Conditions
- High humidity and frequent rainfall in tropical climate zones.
- UV radiation and elevated temperatures affecting roof and canopy structures.
- Pollution, dust, and airborne contaminants from rail operations.
- Condensation and corrosion risk on elevated steel walkways and tunnel interiors.
- Operational constraints requiring nighttime application and surface‑tolerant systems.
Materials Used: Rust Grip®, Super Therm®, Enamo Grip® 5000
Coating System Architecture
- Rust Grip®: Applied in 2 coats at 250μ DFT on cast iron and steel. Penetrates and encapsulates corrosion with 6,780 psi tensile strength and 15,000+ hours ASTM B117 salt‑fog resistance.
- Super Therm®: Ceramic‑based insulation coating blocking 95% infrared heat, reducing roof and tunnel temperatures by 30–40°C.
- Enamo Grip® 5000: Aliphatic polyurethane topcoat providing UV stability, abrasion resistance, and long‑term gloss retention.
Application Methodology
- Surface preparation to SSPC‑SP2/SP3 standards for operational environments.
- Rust Grip® applied nightly (1am–5am) to avoid service disruption, matching Baku Metro protocol.
- Super Therm® applied to roofing and tunnel ceilings to reduce heat load and condensation.
- Enamo Grip® 5000 applied as a durable topcoat for abrasion and UV resistance.
- DFT verification, adhesion testing, and QA/QC documentation for each layer.
Scope: Corrosion control and thermal protection for station roofing, steel canopies, pedestrian bridges, tunnel interiors, platform structures, and supporting steel infrastructure.
Performance Outcomes
- Encapsulation of corrosion on non‑blasted steel surfaces.
- Lower roof and tunnel temperatures improving passenger comfort and reducing condensation.
- Extended service life of public infrastructure and tunnel systems.
- Reduced maintenance frequency and lifecycle cost for metro operations.
