brazed plate heat exchanger. GBE, GKE series. Operating pressure:10, 16, 20, 25, 30 bar. Temperature:-196 °C - 200 °C. The GBE/GKE-Series are compact brazed plate heat exchangers designed for hydronics, perfectly suitable for applications with up to 30 bar / 435 psi and max. 200°C /
Brazed Heat Exchanger manufacturers & suppliers. Recommended product from this supplier. AC30 Cbh16 AC70 AC230dq AC240dq F80 B120t B45 High Pressure Swep Copper Brazed Plate Heat Exchanger for Heat Pump. FOB Price:US $ 50-1000 / Piece. Min. Order:1 Piece.
China CB14 Heat Pump Copper Brazed Plate Hea Exchanger 8419500090. Product Description. CB14 heat pump copper brazed plate hea exchanger. Working principles. The heating surface consists of thin corrugated metal plates stacked on top of each other. Channels are formed between. the plates and corner ports are arranged so that the two media flow through alternate channels, always in counter-current.
Evaporator Brazed Plate Heat Exchanger 25kw 75kw 225kw Swep Heat Exchanger F80 F120t F85 S500t Sr-B3-23A Sr-B3-52A Srb3-95A Heat Exchanger
China Zl95bx Copper Brazed Plate Heat Exchanger for Brazed Plate Heat Exchanger Brazed plate heate exchanger is formed by stainless steel and purity higher that 99% of copper solder integrally at the high temperature in the vacuum brazing furnace. Technological advantage:compact structure, easy installation, light weight, high bearing temperature, high bearing pressure.
The heat transfer plates are made in stainless steel and are brazed with copper as standard. For use with aggressive media, nickel braze can also be used. Copper brazed plate heat exchangers are pressure resistant up to 30bar, nickel brazed up to 10bar. Special models are however also suitable for higher pressures. Hxxx-Liquid
R410A Refrigeration (Heat pump) Brazed Plate Heat Refrigeration (Heat pump) Series BPHE. Superior efficiency:nearly 5 evaporating temperature, high COP. Low carbon footprint:optimized for R410A, R32 new refrigerants. Patented design:state to art distributor design, high liquid distribution efficiency. Low internal volume:low refrigerant charge, low manufacture running cost.