反渗透设计 - 零液体排放

    超高压反渗透技术,用于高回收率废水处理或浓水采矿
    • 最大限度减少浓水排放
    • 减少或免除蒸发需求
    • 回收珍贵矿物
    DTRI P-ID
    在多级反渗透阵列中,只有最后一级反渗透膜的工作压力较高,高于传统海水淡化系统中的运行压力(82)
    使用HPB-Ultra涡轮增压器增压时,无需专业的高压泵或高速电机。
    HPB-500 V1.8 (1)
    零液体排放和浓水采矿需求日益增长,高回收率反渗透迎来新模式。
     使用HPB Ultra涡轮增压器,加强您的超高压反渗透系统,安全、高效又灵活。
    We are constructing more desalination capacity than ever, but traditional single-stage membrane arrays dominate
     
    Small increases to recovery come at the cost of higher biofouling, higher chemical consumption and shorter membrane life
     
    Large arrays of isobaric ERDs also struggle to maintain consistent energy transfer, and introduce brine-feed mixing
    最大限度提高反渗透回收率
    • 降低浓水处理成本
    • 蒸发器尺寸最小化,实现零液体排放应用
    • 优化反渗透膜性能,实现高回收率
    工业导向设计
    • 无电机涡轮增压器,使用动态平衡,更加可靠
    • 占地面积小,减少对现场操作的影响
    • 更安全,更安静:最大限度减少在超高压下工作的旋转部件数量
    联系我们
    Brine mining
    Ultra-high pressure turbochargers
    Zero liquid discharge

    As the push for sustainability and regulations limiting wastewater discharge volumes continue to increase, industrial water users are turning to water recycling and brine concentration through Minimal Liquid Discharge (MLD) and Zero Liquid Discharge (ZLD) facilities. Conventional approaches using evaporation are expensive, energy-intensive, and operationally challenging, making the case for maximizing recovery from waste streams more compelling than ever before.

    However, achieving top brine concentrations beyond 100,000 ppm has traditionally been challenging for reverse osmosis (RO) technology. At every scale, the need for a simple and reliable solution to the membrane brine concentration challenge is clear. Let us help you push the boundaries of what RO technology can achieve.

    Advantages of multi-stage, ultra-high-pressure RO using interstage turbochargers:

    • Achieve top brine concentration up to 120,000 ppm without complex system configurations or challenging operating conditions
    • Simple and reliable solution to the membrane brine concentration challenge
    • Energy-efficient and cost-effective compared to conventional approaches using evaporation

    Read the technical paper linked below to find out more about applying ultra-high-pressure turbochargers to industrial wastewater treatment and ZLD.

    Find out more:

    Contact our sales team to find out more about our products and services.

    Brine mining

    Interstage boosting is commonly used in brackish water reverse osmosis (BWRO) to balance flux between multiple RO stages. This achieves more stable membrane performance and higher recovery rates.

    Using a turbocharger for your system's interstage boosting needs avoids using additional energy, and saves CAPEX on a booster pump, motor and variable frequency drive. It is also highly compact and operates with close to zero noise and vibration.

     

    Interstage boosting is an ideal solution to handling high recovery applications or variable feedwater quality. See the case study below to find out more.

    Find out more:

    • Product specifications: Learn more about the HPB turbocharger
    • Technical guide: In-depth study of centrifugal energy recovery devices
    • Case study: Addressing variable feed quality using interstage boosting.

    Contact our sales team to find out more about our products and services.

    Ultra-high pressure turbochargers

    As the push for sustainability and regulations limiting wastewater discharge volumes continue to increase, industrial water users are turning to water recycling and brine concentration through Minimal Liquid Discharge (MLD) and Zero Liquid Discharge (ZLD) facilities. Conventional approaches using evaporation are expensive, energy-intensive, and operationally challenging, making the case for maximizing recovery from waste streams more compelling than ever before.

    However, achieving top brine concentrations beyond 100,000 ppm has traditionally been challenging for reverse osmosis (RO) technology. At every scale, the need for a simple and reliable solution to the membrane brine concentration challenge is clear. Let us help you push the boundaries of what RO technology can achieve.

    Advantages of multi-stage, ultra-high-pressure RO using interstage turbochargers:

    • Achieve top brine concentration up to 120,000 ppm without complex system configurations or challenging operating conditions
    • Simple and reliable solution to the membrane brine concentration challenge
    • Energy-efficient and cost-effective compared to conventional approaches using evaporation

    Read the technical paper linked below to find out more about applying ultra-high-pressure turbochargers to industrial wastewater treatment and ZLD.

    Find out more:

    Contact our sales team to find out more about our products and services.