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geothermal energy
March 19, 2026

by HFM PHE 0 comment

Geothermal Energy Applications and Plate Heat Exchangers in Geothermal Systems

Geothermal Energy Applications and the Role of Plate Heat Exchangers in Modern Thermal Systems Geothermal energy is gaining renewed attention as the energy transition expands beyond electricity generation alone. In this context, plate heat exchangers play an important role because they help transfer subsurface heat into usable, stable, and maintainable thermal systems. As the energy

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heat pumps
March 13, 2026

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Heat Pumps and Plate Heat Exchangers: System Design, Applications, and Performance Optimization

Heat Pumps and Plate Heat Exchangers: System Design, Applications, and Performance Optimization The Critical Role of Plate Heat Exchangers in Modern Heat Pump Systems Heat pumps use electrical energy to drive a refrigerant cycle that upgrades low-grade heat sources to usable temperature levels. As heat pumps expand beyond building heating into domestic hot water, district

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water-r718-refrigeration
February 27, 2026

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Water (R718) Refrigeration Under Deep Vacuum: Sustainable Cooling Technology and Engineering Insights

Water’s environmental profile makes R718 refrigerant an excellent choice for sustainable, water-based refrigeration systems.   Water (R718) refrigeration under deep vacuum is gaining attention in the refrigeration sector as the shift toward environmentally friendly refrigerants increasingly influences engineering practice.   For several decades, conventional vapor-compression systems have relied primarily on chemical refrigerants such as HFCs

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data-center-cdu
February 12, 2026

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Cold-Plate and Immersion CDU Architectures in Data Centers

Cold-Plate and Immersion CDU Architectures in Data Centers Thermal-Fluid Design Considerations and Operational Requirements for Modern Data Center CDUs   As AI and high-performance computing workloads drive unprecedented power densities, liquid cooling in data centers has transitioned from a niche solution to a mainstream infrastructure strategy. At the center of every liquid cooling deployment is

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air cooling
February 04, 2026

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Air Cooling for Data Center: Utilization of Ambient Air as Primary Cooling Resource

Air Cooling for Data Center: Utilization of Ambient Air as Primary Cooling Resource 1. Available Air-Cooling Resources and Applicable Operating Conditions for Data Center In air-cooled data center designs, the suitability of ambient air for cooling is primarily influenced by outdoor dry-bulb and wet-bulb temperatures and their distribution throughout the year. Regions characterized by high

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sear'water
January 28, 2026

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Seawater Heat-Rejection Loop

Seawater Heat-Rejection Loop: Converting Coastal Heat-Sink Advantage into Sustainable Cooling Capacity Coastal data centers are often viewed as having a natural advantage in heat rejection, as the ocean represents an enormous and readily available heat sink. When data-hall heat can be rejected to seawater in a stable and well-controlled manner, chiller runtime can be reduced.

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January 22, 2026

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Why BPHE Selection Matters in Data Center Liquid Cooling

Why BPHE Selection Matters in Data Center Liquid Cooling   As AI workloads and high-density racks become standard, liquid cooling is moving from a niche solution to a core data center infrastructure. In this architecture, the Coolant Distribution Unit (CDU) is no longer a passive or “background” component. Its internal heat exchanger — most commonly

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