Energy Recovery Showcases Exceptional Performance of PX G1300 in Commercial CO2 Refrigeration Installations
Energy Recovery (Nasdaq: ERII) has released new performance data for its PX G1300 pressure exchanger, showing successful integration into CO2 refrigeration systems. The technology improves energy efficiency with peaks up to 30% and projected annual energy savings of 15%. It also increases cooling capacity by up to 15% at 95°F, without requiring water usage.
The PX G1300 supports the transition from harmful hydrofluorocarbon (HFC) systems to CO2 refrigeration, which is non-toxic, non-flammable, and has significantly lower global warming potential. The solution addresses efficiency decline in hot weather and provides operational flexibility during heat waves, offering a water-free alternative to current solutions.
Energy Recovery (Nasdaq: ERII) ha rilasciato nuovi dati sulle prestazioni del suo PX G1300, mostrando un'integrazione riuscita nei sistemi di refrigerazione a CO2. Questa tecnologia migliora l'efficienza energetica con punte fino al 30% e risparmi energetici annuali previsti del 15%. Aumenta anche la capacità di raffreddamento fino al 15% a 95°F, senza richiedere l'uso di acqua.
Il PX G1300 supporta la transizione dai dannosi sistemi a idrofluorocarburi (HFC) ai sistemi di refrigerazione a CO2, che sono non tossici, non infiammabili e hanno un potenziale di riscaldamento globale significativamente più basso. La soluzione affronta il calo di efficienza nelle giornate calde e offre flessibilità operativa durante le ondate di calore, fornendo un'alternativa senza acqua rispetto alle soluzioni attuali.
Energy Recovery (Nasdaq: ERII) ha publicado nuevos datos de rendimiento para su PX G1300 intercambiador de presión, mostrando una integración exitosa en los sistemas de refrigeración de CO2. La tecnología mejora la eficiencia energética con picos de hasta 30% y un ahorro energético anual proyectado del 15%. También aumenta la capacidad de enfriamiento en hasta un 15% a 95°F, sin requerir el uso de agua.
El PX G1300 apoya la transición de sistemas perjudiciales de hidrofluorocarbonos (HFC) a refrigeración de CO2, que es no tóxica, no inflamable y tiene un potencial de calentamiento global significativamente más bajo. La solución aborda la disminución de la eficiencia en climas cálidos y proporciona flexibilidad operativa durante las olas de calor, ofreciendo una alternativa sin agua a las soluciones actuales.
에너지 리커버리(Energy Recovery, Nasdaq: ERII)는 CO2 냉각 시스템에 성공적으로 통합된 PX G1300 압력 교환기의 새로운 성능 데이터를 발표했습니다. 이 기술은 최대 30%까지의 에너지 효율성을 개선하고 연간 에너지 절감이 15%에 이를 것으로 예상됩니다. 또한 95°F에서 냉각 용량을 15%까지 증가시키며, 수자원을 필요로 하지 않습니다.
PX G1300은 유독성 및 인화성이 없는 CO2 냉각으로의 전환을 지원하며, 상대적으로 훨씬 낮은 지구 온난화 잠재력을 가지고 있는 현재의 유해한 Hydrofluorocarbon(HFC) 시스템에서 전환을 돕습니다. 이 솔루션은 더운 날씨에서의 효율성 저하를 해결하고, 폭염 동안 운영 유연성을 제공하며, 현재의 솔루션에 대한 물 없는 대안을 제공합니다.
Energy Recovery (Nasdaq: ERII) a publié de nouvelles données de performance pour son PX G1300 échangeur de pression, montrant une intégration réussie dans les systèmes de réfrigération au CO2. La technologie améliore l'efficacité énergétique avec des pics allant jusqu'à 30% et des économies d'énergie annuelles projetées de 15%. Elle augmente également la capacité de refroidissement jusqu'à 15% à 95°F, sans nécessiter d'utilisation d'eau.
Le PX G1300 soutient la transition des systèmes nuisibles à hydrofluorocarbures (HFC) vers la réfrigération au CO2, qui est non toxique, non inflammable et a un potentiel de réchauffement climatique significativement plus faible. La solution traite la baisse d'efficacité par temps chaud et offre une flexibilité opérationnelle pendant les vagues de chaleur, proposant une alternative sans eau aux solutions actuelles.
Energy Recovery (Nasdaq: ERII) hat neue Leistungsdaten für seinen PX G1300 Druckaustauscher veröffentlicht, der erfolgreich in CO2-Kühlsysteme integriert wird. Die Technologie verbessert die Energieeffizienz mit Spitzen von bis zu 30% und prognostizierten jährlichen Energieeinsparungen von 15%. Sie erhöht auch die Kühlleistung um bis zu 15% bei 95°F, ohne Wasser zu benötigen.
Der PX G1300 unterstützt den Übergang von schädlichen Hydrofluorkohlenstoffen (HFC) zu CO2-Kühlsystemen, die ungiftig, nicht entzündlich und deutlich weniger potenziell zur globalen Erwärmung beitragen. Die Lösung begegnet dem Effizienzverlust bei heißem Wetter und bietet betriebliche Flexibilität während Hitzewellen und bietet eine wasserfreie Alternative zu aktuellen Lösungen.
- Performance data shows peak energy efficiency improvements of up to 30%
- Projected annual energy savings of 15%
- Increases cooling capacity by up to 15% at 95°F (35°C)
- Eliminates water usage requirement for cooling system efficiency
- None.
Insights
The PX G1300's performance data reveals significant commercial potential in the $30B+ commercial refrigeration market. With demonstrated peaks of up to
The timing is particularly strategic given global regulatory pressure to phase out HFCs, creating a substantial market opportunity. Major retailers and industrial facilities are actively seeking energy-efficient CO2 refrigeration solutions, making Energy Recovery well-positioned to capture market share in this growing segment. The proven performance in commercial installations significantly de-risks the technology for potential customers.
The PX G1300's technical achievements are noteworthy for several reasons. The ability to improve coefficient of performance by up to
By leveraging proven pressure exchanger technology from desalination applications, Energy Recovery has created an elegant solution to CO2 refrigeration's challenges. The simplicity of the design suggests good reliability and maintainability, important factors for commercial adoption. This cross-industry technology transfer demonstrates strong innovation potential for future applications.
CO2 refrigeration is a leading replacement for harmful hydrofluorocarbon (HFC) systems because it is non-toxic, non-flammable, and has a low global warming potential thousands of times better than HFCs. While CO2 systems consume less energy than typical HFC systems1, their efficiency declines in hot weather, leading to higher electricity costs in the summer. Many current solutions leverage water to keep up system efficiency in the heat, which creates challenges of water cost, availability, and maintenance. Additionally, refrigeration systems operate within a fixed capacity (design temperature), causing strain during heat waves and potentially leading to system failure.
Results from this release show that the PX G1300 can aid in solving all three problems by increasing energy efficiency and cooling capacity without water. Findings showed the PX G1300 improved the leading metric of energy efficiency (coefficient of performance) by peaks of up to
“Our goal at Energy Recovery is to support the global transition from harmful hydrofluorocarbons (HFCs) to sustainable, low global warming refrigerants,” said Ricardo Freitas, Energy Recovery’s Vice President of CO2. “With the PX G1300, our customers experience not only year-round energy savings, they also benefit from enhanced system capacity to provide peace of mind from heat waves and a rapidly warming climate.”
The PX G1300 is an innovative application of our leading PX® Pressure Exchanger® for desalination that offers a simple and cost-effective energy saving solution for CO2 refrigeration, easing the transition to sustainable refrigeration.
Forward-Looking Statements
Certain matters discussed in this press release are “forward-looking statements” within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended, including our belief that the PX G1300 can improve COP by peaks of up to
About Energy Recovery
Energy Recovery is a trusted global leader in energy efficiency technology. Building on our pressure exchanger technology platform, we design and manufacture reliable, high-performance solutions that generate cost savings, increase energy efficiency, and reduce carbon emissions across several industries. With a strong foundation in the desalination industry, Energy Recovery has delivered transformative solutions that increase operational efficiency and environmental sustainability to our customers worldwide for more than 30 years. Headquartered in the
1 McLaughlin, Charlotte. “Study: CO2 Systems ‘Use
2Actual results may vary based on multiple factors including system architecture, cost of electricity, ambient temperature, square footage and size of facility, variable loading of the system, time of day, and geographic location. Findings based on customer testimonials and Energy Recovery’s laboratory and field results. Energy Recovery accepts no responsibility for possible errors in catalogues, brochures and other product material, and reliance on data is at your own risk. All trademarks in this material are the property of the respective companies.
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Source: Energy Recovery
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