Energy Recovery Showcases Exceptional Performance of PX G1300 in Commercial CO2 Refrigeration Installations

Rhea-AI Summary

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.

Positive

• 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

Negative

• None.

Insights

Market Research Analyst

The PX G1300's performance data reveals significant commercial potential in the $30B+ commercial refrigeration market. With demonstrated peaks of up to 30% efficiency improvement and 15% cooling capacity increase, this technology addresses critical pain points in CO2 refrigeration adoption. The solution's water-free operation and enhanced heat wave resilience provide compelling competitive advantages over existing technologies.

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.

Tech Expert

The PX G1300's technical achievements are noteworthy for several reasons. The ability to improve coefficient of performance by up to 30% without water usage represents a significant technological breakthrough in CO2 refrigeration. The system's capacity boost of 15% at 95°F addresses a critical weakness of CO2 systems - their efficiency drop in warm weather.

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.

SAN LEANDRO, Calif.--(BUSINESS WIRE)-- Energy Recovery, Inc. (Nasdaq: ERII) today announced new performance data for the PX G1300^® pressure exchanger. The findings demonstrate its successful integration into several existing CO₂ refrigeration systems to reduce energy consumption and increase cooling capacity and system stability.

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 30% with as much as 15% in projected annual energy savings². In addition to energy efficiency, findings estimate the PX G1300 increases cooling capacity for CO₂ refrigeration systems by up to 15% at 95°F (35°C)², providing operational flexibility to safeguard against heatwaves.

“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 30%, our belief that the PX G1300 can lead to as much as 15% in projected annual energy savings, and our belief that the PX G1300 can increase cooling capacity for CO2 refrigeration systems by up to 15%. These forward-looking statements are based on information currently available to us and on management’s beliefs, assumptions, estimates, or projections and are not guarantees of future events or results. Potential risks and uncertainties include risks relating to the future demand for our products, risks relating to performance by our customers and third-party partners, risks relating to the timing of revenue, and any other factors that may have been discussed herein regarding the risks and uncertainties of the Company’s business, and the risks discussed under “Risk Factors” in the Company’s Form 10-K filed with the U.S. Securities and Exchange Commission (“SEC”) for the year ended December 31, 2023, as supplemented by the risks discussed under “Risk Factors” in our Quarterly Report on Form 10-Q for the quarter ended June 30, 2023, as well as other reports filed by the Company with the SEC from time to time. Because such forward-looking statements involve risks and uncertainties, the Company’s actual results may differ materially from the predictions in these forward-looking statements. All forward-looking statements are made as of today, and the Company assumes no obligation to update such statements.

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 San Francisco Bay Area, Energy Recovery has manufacturing and R&D facilities across California and Texas, with sales and on-site technical support available globally.

¹ McLaughlin, Charlotte. “Study: CO2 Systems ‘Use 20% Less Energy’ Than Typical HFC Systems.” R744, 22 Apr. 2021, r744.com/study-co2-systems-use-20-less-energy-than-typical-hfc-systems.

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.

View source version on businesswire.com: https://www.businesswire.com/news/home/20241028908414/en/

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Source: Energy Recovery

FAQ

What are the energy efficiency improvements of ERII's PX G1300 pressure exchanger?

The PX G1300 shows peak improvements in coefficient of performance of up to 30% and projected annual energy savings of 15%.

How much does the PX G1300 increase cooling capacity in CO2 refrigeration systems?

The PX G1300 increases cooling capacity by up to 15% at 95°F (35°C).

What advantages does ERII's PX G1300 offer over traditional cooling solutions?

The PX G1300 improves energy efficiency and cooling capacity without requiring water usage, unlike traditional solutions that depend on water for maintaining system efficiency in hot weather.

How does ERII's PX G1300 help with CO2 refrigeration system performance in hot weather?

The PX G1300 maintains system efficiency during hot weather without water usage and provides increased cooling capacity, helping prevent system strain during heat waves.