胡莱原油加工装置实用洗涤水和破乳剂优化

H. A. Bajuaifer, M. A. Malki, K. Amminudin
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摘要

本文介绍了沙特阿美公司Khurais生产设施采用的实用破乳剂和洗洗水方法,以优化化学品和水的消耗。本文旨在:分享实用的破乳剂和洗涤水优化方法。强调这种方法如何增强分离过程,以及如何通过优化现场操作参数,帮助沙特阿美公司以最小的运营成本满足产品质量。优化的基本思想是通过减少生产集管上的破乳剂用量来增加保留时间,从而允许水携带到下游设备和容器,从而放松HPPT中油乳化水的分离。优化过程包括操纵不同的关键参数(受控变量),即破乳剂加药率(在生产集管和脱水机上)、洗涤水加药率、在预先设定的内部限制范围内,根据BS&W和盐的出口规格,持续监测和纠正措施,以避免出现不合规格的产品(试验和错误)。这种方法通过减少50%的破乳剂总用量,降低了运营成本,并提高了整体分离效率,从而增强了分离效果。各种图表显示了优化操作参数对脱水机分离效果的全面影响。从节约用水的角度来看,该工艺在不影响原油规格的情况下,每天减少了超过20,000加仑的用于原油洗涤的非饮用洗涤用水。由于破乳剂的显著减少,这一优化节省了大约65万美元的成本。维持这样的最佳绩效证明是一项挑战,在这方面,该小组将重点放在监测工作上,这些工作配备了咨询功能,说明如果与规定的目标存在偏差,该如何做。这包括团队立即采取纠正措施的警报功能。总体而言,这一举措成功地保持了BS&W和盐的设施质量标准,同时降低了化学操作成本,通过节省非饮用水洗涤水产生了积极的环境影响,同时有效地提高了资产利用率和可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Practical Wash Water & Demulsifer Optimization at Khurais Crude Processing Facility
This paper covers practical demulsifer and wash water approach followed by Saudi Aramco Khurais producing facility to optimize the chemical and water consumption. This Paper is intended to: Share practical demulsifer and wash water optimization approach. Highlight how this approach enhanced the separation process and how it already helped Saudi Aramco to meet the product quality with minimal operating costs by optimizing operating parameters in the field. The basic idea of the optimization is to relax the oil - emulsified water separation in HPPT by allowing water carry over to the downstream equipment and vessels through minimizing the demulsifer dosage on the production header to increase the retention time. The optimization process includes manipulating different key parameters (controlled variables) which are demulsifer dosing rate (on production header and dehydrator), wash water dosing rate, de-salting train mixing valves differential pressure and transformers voltage with continues monitoring and corrective actions based on the export specification of BS&W and salts within pre-defined internal limits to avoid having off-spec product (Trial and Error) This approach resulted in decreasing the operating costs by reducing overall demulsifer dosage by 50%, and allowing the overall separation efficiency to be increased contributing towards enhanced separation. Various graphs included showing the full impact of optimizing the operating parameters on improved separation in dehydrator. From the water conservation, this process resulted in reducing non-potable wash water consumption for crude washing purposes by more than 20,000 gallon/day without compromising the crude specification. This optimization resulted in cost saving equivalent to around US$ 650,000 due to significant demulsifer reduction. Sustaining such an optimum performance proves to be a challenge and in this regard, the team is focusing heavily on the monitoring efforts that are equipped with the advisory features on what to do should the deviation exist from the stipulated target. This includes, among others, the alerting feature for immediate corrective actions by the team. Overall, this initiative succeeded in maintaining the facility crude quality specifications of BS&W and salts while reducing chemical operating costs, creating positive environmental impacts by saving non-potable wash water while increasing the assets utilization and reliability effectively.
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