
The Basic Types of Heat Transfer
There are three primary modes of heat transfer. 1.Conduction, the transfer of heat through matter with no net displacement of the matter. 2.Convection, the circulatory motion of a gas or liquid caused by the variation of its density and the action of gravity. 3.Radiation, the process of transferring heat by emitting electromagnetic energy in the form of waves or particles. Thermal Conductivity is the amount of heat a particular variable can carry through it in unit time. The

Copper tube coil or Stainless Steel tube coil in Brewing
A wort chiller is a device that cools down unfermented beer after boiling. Cooling down wort quickly is important because it helps to reduce the chances of bacteria from growing before you pitch the yeast. Yeast needs a certain temperature to live; if too hot you will kill the yeast, too cold, and it may not ferment properly. Rapidly cooling wort is important as well, because it will help discourage certain unwanted flavors in the final brew. A wort chiller passes hot wort th

Advatages of our stainless steel tube coil
Tube coils often used in heat exchange applications can be fabricated easily in a variety of materials. Usually a stainless steel helical coil is preferred in most designs. Offering a unique advantage to a variety of products and applications, the heat exchange coil made of seamless stainless steel tube, and can stand high pressure applications. For applications needing clean and sanitary steel, coils can be manufactured from 304 food grade stainless steel. Offering a long se

Stainless Steel and Heat Exchangers
Many industries more often use processes involving heating and cooling. Due to this, heat exchangers are a vital part of these industries. Reliability and efficiency has made stainless steel become a more and more popular material in today's industry. As many of these industries continue to strive towards higher productivity, stainless steel offers many benefits. One that it is very durable due to its resistance to corrosion, oxidation and even scaling at high temperatures. S

Stainless Steel in High Temperature Applications
Commonly stainless steel is used for its high temperature properties. Applications where high temperature oxidation resistance is necessary, stainless steel is usually required. Resistance to oxidation, or scaling, is dependent on the chromium content. The high chromium content which is beneficial to the wet corrosion resistance in stainless steel is also extremely beneficial to their high temperature strength, and resistance to scaling at elevated temperatures. Most austenit

Stainless Steel and Low Temperature Applications
Stainless steels is commonly used to service temperatures anywhere as low as, -269 degC. This is due to the lack of defined transition from ductile to brittle fractures in impact toughness testing.The cold working of austenitic stainless steels can also affect their cryogenic toughness. Austenitic stainless steels such as 304 and 316 are tough at cryogenic temperatures and can be classified as 'cryogenic steels'.They can be considered suitable for sub-zero temperatures someti

Get the most from your stainless steel applications
Although the majority of stainless steel applications work perfectly as intended by the designer and fabricator, there are a significant number of instances where someone, often the consumer, is disappointed by the performance. The causes of these problems tend to fall into a few categories. In most of all these cases, a little basic knowledge would have prevented or significantly improved the situation. The causes of these problems can arise at any point in the long supply c

Why Stainless Steel is used with many applications?
With over over 150 grades of stainless steel, of which 15 are commonly used in everyday applications. Stainless steel is used in different structures including plates, bars, sheets and tubing for use in mechanical and local settings. A wide range of production depend on stainless steel. For many applications it's the most effective solution for many industries needing low cost and high quality. Some common applications include construction, automotive, medical, food and produ

Heat-Exchange and Water Cooling
Shell-and-tube heat exchangers, have outer flanged shells with end bonnets that are accurately sealed to the shell ends. A particular pattern of tubing in the shell runs through the duration of the shell and terminates in end plates. Tube ends are fastened to the cease plates, which seal every end of the shell. Cool water flows inside the tubes, and warm hydraulic oil flows around the tubes in the shell. Heat exchangers are manufactured from pink brass, copper, solid iron, ad

HEAT EXCHANGE - Reasons Why to use stainless steel?
1. Resistant to corrosion One reason stainless steel provides a better heat exchange is the fact that many types of stainless steel are resistant to corrosion and oxidation. Stainless steel maintains this resistance in virtually all cooling waters and many chemical environments. 2. Maintains strength in Low-and-High-Temperature service. Properties in the stainless steel not only are resistant to corrosion but also maintain strength. High resistance to cracking, and stress cor