Session: 08-03-01: 4E Analysis and Optimization of Thermodynamic Systems

Paper Number: 68569

Start Time: Wednesday, 04:50 PM

68569 - Control Temperature of the Air Conditioning System of a Vessel From Exergoeconomic Analysis 

In this work the air conditioning system of a 93 m long and 14 m wide vessel with 4081 refrigerated m3 distributed in 51 premises is studied. In which energy, exergetic and exergoeconomic analyzes were carried out for control temperatures between 20 and 27 ° C and 50% relative humidity, with outdoor air conditions of 35 ° C and 70% relative humidity. For the vessel, the thermal load is calculated with an adaptation of the ASHRAE CLDT / SCL / CLF methodology and the ISO 7547 standard. Exergy and exergoeconomic analyzes were carried out that allowed to know the energy and economic behavior and performance of the system, for the control temperature range of 20 to 27 ° C. Thermal load contributors taken into account for the study were heat transfer through walls, ceilings, and glass in addition to gains from people, lighting, and minor equipment. Transmission through walls and ceilings represents 33% of the thermal load, followed by glass with 18% and power equipment with 15%, the last three sources of thermal load generation are minor equipment (12%) , people (12%) and lighting (10%). For each degree centigrade of the control temperature, the thermal load is reduced by 2.4 and 1.1%, respectively, as determined by the ASHRAE and ISO methodologies. Similarly, the destruction of exergy is reduced by 4.16% for each degree Celsius that the control temperature is increased. for temperatures greater than 23 ° C, an increase in exergetic efficiency is obtained due to the decrease in the exergies of fuel, product and destroyed. An indicator is proposed to calculate the cost of generation of cooling load per unit volume and exergy of the thermal load from which it is obtained that the higher the control temperature, the lower the value of the cost of generation of the cooling load. . From the exergoeconomic analysis, it is highlighted that the destruction of exergy is the main factor in the increase in system costs. Increases in exergy destruction increase the value of the indicator of cooling load generation costs per volume and unit of heat load exergy. For each degree Celsius that the control temperature is reduced, the cost of generation of cooling load per volume and unit of exergy of thermal load increases on average 0.35%. For the control temperature of 20 ° C, the average cost of generation is $ 0.0595 / GJ-m3 while for 27 ° C it is $ 0.0580 / GJ-m3.

Presenting Author: Juan Fajardo Universidad Tecnológica De Bolívar

Authors:

Deibys Barreto Universidad Tecnológica de Bolívar
Juan Fajardo COTECMAR
Julian Berrio COTECMAR
Rosa Torres Universidad Tecnológica de Bolívar
Yimy. Gordon Universidad Popular del Cesar
Carlos Vidal Universidad Popular del Cesar