After going through the presented Executive Summary, I have agreed that Flourinert is the most appropriate fluid for the Gateway Station heat exchange. Many professionals prefer it over Triol due to its ability to offer multiple functions. Engineers could customize this product to meet the unique demands of every system and support the intended performance (Wright, 2015). Experts have identified this fluid as efficient and safe when applied in different aerospace systems and applications. Its toxicological attributes and safety profile explain why it remains preferable in the field of engineering. Since it is an odourless and non-irritating liquid, Flourinert can meet the demands of astronauts while withstanding huge fluctuations in temperatures. The current knowledge about this fluid should become the foundation for completing additional experimentations and researches to discover additional health, toxicological, and safety benefits and expand its possible applications in different heat exchange systems.
Unfortunately, the current analysis fails to offer concrete information regarding the stability of this fluid when used in heat exchange systems. For instance, engineers do not fully understand its nature and period of degradation, thereby being unable to predict the most appropriate period to allow it in the targeted machine before they can change it. The substance could leak and affect the overall performance of the targeted system. Without proper warning mechanisms or odour, astronauts would be unable to detect it. Future experimentalists and researchers could consider the importance of adding new agents to make it easily detectable after spillage while maintaining its overall integrity (Wright, J2015). Despite these issues, it is evident that Flourinert has the potential to provide the required fluid mechanisms and dynamics without affecting the intended safety and health goals.
Reference
Wright, J. (2015). Cooling system keeps space station safe, productive. Web.