In this paper the optimization of the main design parameters is performed for a double-stage seawater reverse osmosis (SWRO) system coupled with an ultraflltration process;the minimal energy consumption is the goal of the optimization process.The energetic benefits for the membrane process are calculated,deriving from the use of a hybrid two-stage/two-pass lay-out with ultrafiltration pre-treatment,which is a typically a low energy consumption process.Also the benefits on membranes' efficiency and duration are assessed by examining the very low Silt Density Index (SDI) of the water exiting the ultraflltration section.The analysed system includes a SWRO membrane in the high pressure stage and a BWRO membrane in the low pressure one,according to a well-known practice for small and medium size plants.Such plant lay-outs allow to threat high TDS feedwater (up to 40 g/l),usually adopting very cheap membranes and operating them with a very low recovery factor.A comparison with a single stage RO section is performed,assuming a typical TDS of the seawater for Mediterranean regions and a fixed TDS level for the final product (<500 mg/l).The investigation mainly concerns technical and energetic aspects,but a brief cost analysis is finally presented in order to assess the economic viability of the proposed solution.
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机译:本文针对结合超滤工艺的双级海水反渗透(SWRO)系统进行了主要设计参数的优化;优化设计的目标是实现能耗最小化。通过使用混合的两阶段/两阶段布局与超滤预处理(通常是一个低能耗的过程)得出的结果,还通过检查膜的效率来评估膜效率和持续时间的好处。超滤区出水的水粉尘密度指数(SDI)低。分析系统包括高压阶段的SWRO膜和低压阶段的BWRO膜,根据中小型工厂的常见做法这样的工厂布局会威胁到高TDS进水(最高40 g / l),通常采用非常便宜的膜并以非常低的回收率运行它们。进行RO区分析,假定典型的地中海地区海水TDS和最终产品的固定TDS水平(<500 mg / l)。研究主要涉及技术和能源方面,但最后进行了简要的成本分析为了评估所提出解决方案的经济可行性。
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