Improvement of a Scraper Heat Exchanger for Pre-Heating Plant-Based Raw Materials Before Concentration

EngRN: Engineering Design Process (Topic) Pub Date : 2020-06-30 DOI:10.15587/1729-4061.2020.202501

K. Kasabova, S. Sabadash, V. Mohutova, Vadym Volokh, A. Poliakov, T. Lazarieva, O. Blahyi, Oleg Radchuk, Vladyslav Lavruk

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引用次数: 13

Abstract

When heating liquid and paste-type products, enterprises in the food industry commonly use scraper heat exchangers, which, given their high heat treatment intensity, make it possible to retain the original properties of the treated raw materials. Most heat exchangers demonstrate an unstable stabilizing effect: the vapor pressure ‒ the temperature that leads to damage to raw materials, under conditions of significant energy- and metal capacity. It is possible to eliminate these drawbacks by using a temperature-stable flexible film resistive electric heater of the radiating type as a heater in an improved scraper heat exchanger. We have proposed applying a hinged blade with a cutting edge (with a reflective heating surface) as a stirring element of the heat exchanger to obtain the uniform distribution of a product layer thickness at the working surface and to additionally heat by the blade's reflective surface. The heat exchanger can be supplemented with a cooling shell with ring channels to pass the refrigerant, which is placed on the outer surface of the non-thermally insulated flexible electric heater. Such a solution provides the possibility of cooling to −15 °C and it simultaneously serves the additional air thermal insulation in the absence of the carrier in it. We have determined the uniformity of heat flow distribution over the heating surface of the model design of the improved unit (60.3...60.5 °C) and at the reflective surface of the hinged blade with a cutting edge (60.0...60.3 °C). The total thickness of a liquid layer has been established depending on the shaft rotation frequency of the proposed hinged blade with a cutting edge: at 50 min –1 – 1–2.65 mm, at 350 min –1 –1.5 mm, compared with a standard hinge blade (a layer thickness is from 5.0 mm to 1.5 mm), in terms of product consumption W=50 l/h. The improved scraper heat exchanger is characterized by a 1.48-time decrease in the specific energy consumption (170.4 kJ/kg), used to heat a product volume unit, compared to the heater with a steam shell – 252.6 kJ/kg. The research result is the confirmed efficiency of using the improved scraper heat exchanger, as well as its proposed structural scheme

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植物原料浓缩前预热刮板换热器的改进

在加热液体和糊状产品时，食品行业的企业通常使用刮板换热器，由于其热处理强度高，因此可以保留被处理原料的原始性能。大多数热交换器表现出一种不稳定的稳定效果:蒸汽压-在能量显著的条件下导致原材料损坏的温度-和金属容量。通过在改进的刮刀热交换器中使用温度稳定的柔性薄膜电阻式辐射型电加热器作为加热器，可以消除这些缺点。我们建议采用带切削刃(带反射加热面)的铰链叶片作为热交换器的搅拌元件，以获得产品层厚度在工作表面的均匀分布，并通过叶片的反射面进行额外加热。换热器可增设带环形通道的冷却壳，使制冷剂通过，该冷却壳置于非绝热柔性电加热器的外表面。这种解决方案提供了冷却到- 15°C的可能性，同时在没有载体的情况下提供额外的空气隔热。我们已经确定了改进单元模型设计的受热面(60.3…60.5°C)和带切削刃的铰链叶片反射面(60.0…60.3°C)的热流分布均匀性。液体层的总厚度已经确定，这取决于所提出的带有切削刃的铰链叶片的轴旋转频率:与标准铰链叶片(层厚度从5.0 mm到1.5 mm)相比，在50分钟- 1 - 1-2.65 mm时，在350分钟- 1 - 1.5 mm时，产品消耗W=50升/小时。改进后的刮刀换热器的特点是加热一个产品体积单位的比能耗(170.4 kJ/kg)比带蒸汽壳的加热器(252.6 kJ/kg)降低1.48倍。研究结果证实了改进型刮刀换热器的使用效率，并提出了改进型刮刀换热器的结构方案

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EngRN: Engineering Design Process (Topic)

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