18381628. HEAT EXCHANGER simplified abstract (MAHLE International GmbH)

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HEAT EXCHANGER

Organization Name

MAHLE International GmbH

Inventor(s)

Martin Sievers of Kernen im Remstal (DE)

Uwe Foerster of Erdmannhausen (DE)

Hicham Rouhana of Korntal-Muenchingen (DE)

HEAT EXCHANGER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18381628 titled 'HEAT EXCHANGER

The abstract describes a heat exchanger with a heat exchanger block containing first fluid channels and second fluid channels, along with a fluid collector. The first fluid channels have a first fluid channel section and a second fluid channel section. The heat exchanger includes various fluid inlets and outlets to facilitate the flow of fluids through the system.

  • The heat exchanger block contains first and second fluid channels for efficient heat transfer.
  • A fluid collector is included in the system to gather and distribute fluids appropriately.
  • The design allows for separate flow paths for different fluids, enhancing heat exchange efficiency.
  • The fluid inlets and outlets are strategically placed to ensure proper fluid flow and heat transfer.
  • Overall, the heat exchanger is designed to optimize the exchange of heat between different fluids.

Potential Applications: - Industrial processes requiring precise temperature control - HVAC systems for efficient heating and cooling - Automotive cooling systems for engines - Renewable energy systems for heat transfer

Problems Solved: - Inefficient heat transfer between fluids - Lack of control over temperature regulation - Limited options for heat exchange in various applications

Benefits: - Improved energy efficiency - Enhanced temperature control - Versatile applications in different industries - Cost-effective solution for heat exchange needs

Commercial Applications: Title: Advanced Heat Exchanger Technology for Industrial and HVAC Systems This technology can be utilized in industrial processes, HVAC systems, automotive cooling systems, and renewable energy applications. The market implications include increased efficiency, cost savings, and improved performance in heat exchange processes.

Questions about Heat Exchanger Technology: 1. How does this heat exchanger technology compare to traditional heat exchange methods? 2. What are the specific industries that can benefit the most from this advanced heat exchanger technology?


Original Abstract Submitted

A heat exchanger including a heat exchanger block having first fluid channels and second fluid channels, including a fluid collector, the first fluid channels having a first fluid channel section and a second fluid channel section. A first fluid inlet is provided, which is fluidically connected to the first fluid channel section of the first fluid channels. A first fluid outlet is fluidically connected to the first fluid channel section of the first fluid channels. A second fluid inlet is fluidically connected to the second fluid channel section of the first fluid channels. A second fluid outlet is fluidically connected to the second fluid channel section of the first fluid channels. The fluid collector has a third fluid inlet, a third fluid outlet, and a fourth fluid inlet, which is fluidically connected to the second fluid channels. A fourth fluid outlet is fluidically connected to the second fluid channels.