Energy Audit on Two 22-TPH Coal-fired Boilers of a Pineapple Processing Plant

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES
Jay Nelson Corbita, L. Pabilona, Eliseo Villanueva
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Abstract

The price of coal used by a pineapple processing plant has increased from 3.90 Php/kg in 2018 to 8.60 Php/kg in 2022, thus increasing steam generation costs. This study conducted an energy audit on the two 22-TPH coal-fired boilers of the pineapple processing plant to determine boiler efficiency, quantify sources of heat loss, identify energy conservation measures, and calculate energy and coal savings. The coal-fired boilers investigated were fluidized bed combustion boilers with a reverse osmosis feedwater system. The boiler efficiency was calculated using an indirect method, considering energy losses from sensible heat in refuse and blowdown water. Of the three performance tests conducted, the average boiler efficiency is at 80.655%. The top five sources of heat loss were dry flue gas, hydrogen in coal, moisture in coal, surface radiation and convection, and boiler blowdown. These sources account for 18.322% of the energy input. The identified energy conservation measures include the installation of an automatic oxygen trim control, the installation of an economizer, the installation of a caustic injection system, and the insulation of uninsulated surfaces. These measures have a total potential energy savings of 52,494,974 MJ/yr and coal savings of 2,594,579 kg/yr. While a caustic injection system is not yet installed, setting blowdown TDS to 2,090 ppm can reduce energy consumption by 1,656,496 MJ/yr and coal consumption by 81,873 kg/yr. Using coal with lower hydrogen and moisture content can also reduce energy loss by 6,096,810 MJ/yr per 0.5% reduction in hydrogen content and 6,816,813 MJ/yr per 5% reduction in moisture content.
菠萝加工厂两台 22-TPH 燃煤锅炉的能源审计
菠萝加工厂使用的煤炭价格从 2018 年的 3.90 菲律宾比索/公斤上涨到 2022 年的 8.60 菲律宾比索/公斤,从而增加了蒸汽发电成本。本研究对菠萝加工厂的两台 22-TPH 燃煤锅炉进行了能源审计,以确定锅炉效率、量化热损失来源、确定节能措施并计算节能和节煤效果。所调查的燃煤锅炉是带有反渗透给水系统的流化床燃烧锅炉。锅炉效率采用间接方法计算,考虑了垃圾和排污水中的显热造成的能量损失。在进行的三次性能测试中,锅炉的平均效率为 80.655%。热损失的前五大来源是干燥烟气、煤中的氢气、煤中的水分、表面辐射和对流以及锅炉排污。这些来源占输入能量的 18.322%。已确定的节能措施包括安装自动氧气微调控制装置、安装省煤器、安装碱液喷射系统以及对未隔热的表面进行隔热处理。这些措施的潜在节能总量为 52,494,974 兆焦耳/年,节煤量为 2,594,579 千克/年。虽然尚未安装苛性钠喷射系统,但将排污 TDS 设置为 2,090 ppm 可减少 1,656,496 兆焦耳/年的能耗和 81,873 千克/年的煤耗。使用含氢量和含水量较低的煤炭,含氢量每降低 0.5%,可减少能源损耗 6,096,810 兆焦耳/年;含水量每降低 5%,可减少能源损耗 6,816,813 兆焦耳/年。
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来源期刊
Pertanika Journal of Science and Technology
Pertanika Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-
CiteScore
1.50
自引率
16.70%
发文量
178
期刊介绍: Pertanika Journal of Science and Technology aims to provide a forum for high quality research related to science and engineering research. Areas relevant to the scope of the journal include: bioinformatics, bioscience, biotechnology and bio-molecular sciences, chemistry, computer science, ecology, engineering, engineering design, environmental control and management, mathematics and statistics, medicine and health sciences, nanotechnology, physics, safety and emergency management, and related fields of study.
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