一种改善蒸发结晶器性能的新技术——窝管

Zuckerindustrie Pub Date : 2023-10-01 DOI:10.36961/si30504
Darius Bezuidenhoudt, Meethan Gokool, Steve Rosettenstein, Murray Stevens
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引用次数: 0

摘要

现有和扩建工厂的一个共同要求是增加结晶/蒸发结晶器(真空锅)的容量;这通常是不可行的,因为需要大量投资来安装新船,重新分配现有的船,以及必要的额外辅助服务。一种创新的蒸发结晶管已经开发,测试,试用和商业化;与市场上的同类产品相比,它提供了一种以更低的投资增加产能的替代解决方案。从最初的概念到商业化,“酒窝管”技术已经发展了四年多,经历了一系列的分析、修改、测试和试验。这些分析包括计算流体动力学(CFD)来预测流动和性能特征,有限元分析(FEA)来分析直接应力和疲劳应力,压力测试,无损测试,在役试验和实验室测试。作为商业化过程的一部分,制造设备和系统已经被设计、开发和实施,以确保技术的可靠和可重复生产,这已经从一个概念转变为商业上可用的增值产品。结果是一种新的管道技术,可以将现有容器的受热表面积增加约15%。额外的加热表面积带来的性能优势如预期的那样,但除此之外,湍流的增加显著影响了换热系数,导致蒸发速率的进一步增加和吞吐量的增加。在没有搅拌器的容器中进行的试运行没有显示出对现有操作的缺点或妥协。改造现有的容器就像重新安装蒸发结晶器的管道一样简单。广泛的开发和测试导致了一种新的管技术正在申请专利,该技术对热交换器的性能产生了重大影响,特别是蒸发结晶器。与目前市场上的竞争技术或选择相比,这些优势的成本和交货时间都要低得多。
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The new dimple tube – a technology to improve evaporating crystallizer performance
A common requirement in existing and expanding factories is for them to increase the crystallisation/evaporating crystallizer (vacuum pan) capacity; this is often not feasible due to the significant investment required to install new vessels, reallocate the existing vessels, and the necessary additional ancillary services. An innovative evaporating crystallizer tube has been developed, tested, trialled and commercialised; it provides an alternative solution for increasing the capacity at a significantly lower investment compared to the market equivalents. The dimple tube technology has been developed over four years, from an initial concept through to its commercialisation, and it has been through a series of analyses, alterations, tests and trials. These analyses included Computational Fluid Dynamics (CFD) to predict flow and performance characteristics, Finite Element Analysis (FEA) to analyse the direct and fatigue stresses, pressure testing, non-destructive testing, in-service trials and laboratory testing. Manufacturing equipment and systems have been designed, developed and implemented as part of the commercialisation process to ensure the reliable and repeatable production of the technology, which has been taken from a concept through to a commercially available and value-adding product. The outcome is a new tube technology that increases the heating surface area of an existing vessel by approximately 15%. The performance benefits of the additional heating surface area are as expected, but in addition to this, the increased turbulence significantly affects the heat transfer coefficients, resulting in a further increase in the evaporation rate and an increase in the throughput. The trial operation in a vessel without stirrer has shown no drawbacks or compromises to the existing operations. Retrofitting the existing vessels is as simple as retubing the evaporating crystallizer. Extensive development and testing have led to a new patent-pending tube technology that significantly impacts on the performance of heat exchangers, particularly evaporating crystallizers. The benefits are attained at a significantly lower cost and lead time than competing technologies or options currently available on the market.
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