STEAM CONSUMPTION ANALYSIS ON THE VENTING PROCESS IN DIRECT STEAM RETORT
Published In: 8TH INTERNATIONAL CONFERENCE ON ADVANCES IN MECHANICAL, AERONAUTICAL AND PRODUCTION TECHNIQUES
Author(s): SASITHORN PAYAKTHONG , TEERACHART PORNPIBUL
Abstract: Presently, the steam consumption usage of the retort was unable to be found, since the equipment used in sterilization were those that used steam as a medium to provide heat. When high temperature steam is needed, the pressure of the steam becomes high as well. Thus, when sterilizing, pressure must also be maintained in addition to temperature, since high pressures can result in damage to the product, and temperatures can rise above the standard. Thus, some of the steam must be released throughout the process, and in the first parts of the sterilization, air must also be vented from the machine by opening the vent pipe. Since the inside of the retort contains steam and air mixed together, some steam is also released after the vent pipe has been opened. Thus, one can’t measure the true amount of steam, resulting in the production of steam of excess pressure and amount than needed to support the steam needed for sterilization. This study will study the process of sterilization of canne
- Publication Date: 04-Feb-2018
- DOI: 10.15224/978-1-63248-147-4-22
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THERMAL PERFORMANCE EVALUATION OF THERMOELECTRIC MODULE
Published In: 8TH INTERNATIONAL CONFERENCE ON ADVANCES IN MECHANICAL, AERONAUTICAL AND PRODUCTION TECHNIQUES
Author(s): KRAWEE TREEAMNUK , PATCHARA WONGPAISARNKIT , TAWARAT TREEAMNUK
Abstract: This article ascribes about the thermoelectric module that conveniently creates the difference temperature between the both of its sides by supplying the electricity. The study aims to test the performance of the heat generating and heat exchanging capability of the thermoelectric module model TEC-12710 for the possibility evaluation when it will be modified in the agricultural products drying system. The experiment apparatus was prepared by install the air fin heat exchangers on the 16 cm2 of both sides of the thermoelectric module and then, enforced the air flow through the system and measured the inlet-outlet of air properties. The results found that the supplying of 16 V, 8.5 A DC electricity to the module gains the air temperature from 30°C 68%RH to 52.3°C 26.8%RH on the hot side of the module. The system consumes a 40 W of power and gives the highest moisture extraction rate (MER) at 0.016 kgwater/h on the cold side of module by supplying of 6 V 3.5 A and it have the coefficien
- Publication Date: 04-Feb-2018
- DOI: 10.15224/978-1-63248-147-4-23
- Views: 0
- Downloads: 0