Heat Exchanger and Heat Transfer Principles

By expert engineers in the field Turkey in the field of milk processing in food processing, offering solutions to industrial crops that produce homogenizers, it aims to improve product quality.

Homogenization : is a process for keeping a long period of time in the package without deteriorating the emission of the smoke. This machine is called homogenizer.

Ekin Industrial Industry Segment Coordinator Ozan Çelik observing MIT Marked Homogenizers’ Viscosity of MIT brand homogenizers is 200 CP and max. designed for products with a particle size of up to 500 microns. Operation temperatures are 90 degrees. It has milk processing capacity from 1000 L / h to 10000 L / he. Homojene stage can be designed as single or double. The maximum working pressure is 250 bar and the maximum pressure is 10 bar. The number of strokes of MIT homogenizers is 750 units / min.Engine power and electricity consumption vary according to the required capacity. We aim to meet the demands of our customers with the MIT homogenizers we have developed to provide solutions for milk processing applications. ”

Production capacity, innovative design, engineering services, pre and after sales customer-oriented approach Annex located on a lot of projects with industrial “MIT” products, by signing the project aims to offer solutions with advanced technology principles in heating-cooling in Turkey.

Ekin Endüstriyel Isdemir provided Heat Exchanger and Heat Transfer Principles Training.

Ekin Endüstriyel Isdemir, who is serving in the field of heat transfer with a specialist engineer in his field, realized a seminar. Ekin Industrial Industrial Segment Coordinator Ozan Celik explained that the training exchanger and heat transfer principles that took place on Friday, April 14, 2017 were mentioned.

The training started at 13:00 and ended at 17:00. What are the principles of heat transfer in the first session of the two-session training process? What is a heat exchanger? What are the types of exchangers? By responding to their questions, the working principle of the heat exchanger and its application areas were discussed. In the training process that started with the principles of heat transfer, certain rules for heat transfer were mentioned and exemplified. The heat exchanger was described and outlined. The different types of heat exchangers, gasketed, brazed and pipe heat exchangers were evaluated and their differences, advantages and disadvantages were discussed. According to the types of heat exchangers have different working principles, technical drawings are expressed in the direction of. Examples of how the gasket materials and plate surfaces differ from each other in terms of heat transfer angle are described. It was given information on what type of heat exchanger should be used in which application.

In the second session of the training, examples of the applications were mentioned and the exchanger selection and service maintenance issues were explained. How should the heat exchanger problem detection be done while the most important factors in the heat exchanger selection are sorted? When should the exchanger maintenance be carried out? His questions were answered. The training was terminated by answering questions from heat exchangers regarding heat recovery and application areas.

Source: Ekin Industries

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