TridentÂŽ HSC - High-Rate Multi-Barrier Clarification for Water and Wastewater Treatment

Introducing the TridentÂŽ HSC, the latest addition to the Trident HS line. The multi-barrier clarification system yields high performance while minimizing risk of process upset. Systems are provided in pre-engineered steel tanks (0.5-2.0 MGD per unit) or concrete basins (5 MGD to 20 MGD per unit). Trident HSC multi-barrier clarification units offer two stage protection for surface water, ground water and industrial proces water treatment systems. The series operated stages each reduce incoming contaminants to produce high quality effluent while providing back-up protection for the overall process Applications: High turbidity and color applications Variable influent water conditions Wastewater phosphorus removal Enhanced coagulation treatment Cold water conditions The treatment process uses proven coagulation-flocculation technology at high rates to minimize required footprint. High intensity mixing and solids contacting quickly develops rapidly settling floc particles without the need for specialty chemicals or external ballast. Heavy floc particles are settled using include plate separators followed by an upflow buoyant media clarifier for light floc removal. The entire process is monitored and controlled by an integrated control system to ensure high quality effluent is produced and operator attention is minimized. Features and Benefits Features: Multi-Barrier treatment protection HIgh rate calrification processes in series Standard system designs for a wide range of flow conditions Automatic operation and control Tube Clarifier with integral sludge recirculation Proven buoyant media clarifier Corrosion resistant system components A full suite of filtration products to complete your system Benefits: Reliable, simple treatment for diffcult waters Handles high turbidity and organic loads with ease Modular expansion capability TOC reductions 55% or more when combined with filtration Reduced disinfection by-product precursors (DBPP) and helps meet THM and HAA regulations Minimizes waste production and operator attention Smaller Footprint compared to conventional equipment The TridentÂŽ HSC Systems minimize size and cost and maximize efficiency and performance for difficult to treat waters Installation Experience: The TridentÂŽ HSC is the newest addition to the Microfloc TridentÂŽ family, which was introduced in June of 1982. The number of locatons realizing the benefits of TridentÂŽ Systems is over 1,000 and still growing. When filtration is required to complete the system process, the packaged TridentÂŽ HS unit may be provided for up to 6 MGD plant flow. For larger systems, we offer a complete line of filter components and filter systems to complete the process train.

ELODEÂŽ Electro-Osmosis Dehydrator

ELODE is the World’s First “Field-Proven“ Commercialized Electro-Osmotic Dewatering Technology The ELODE system produces high dryness resulting in significant reduction in sludge storage or incineration costs. The ELODE system can achieve reduction in final cake weight/volume of 40% or better, saving on transportation and landfill disposal costs and enabling energy recovery. It has low energy consumption compared to conventional dryers, making the ELODE system more energy efficient. The ELODE system is versatile and can be easily integrated into existing dewatering systems. The compact size minimizes infrastructure cost. The ELODE system is a proven system with more than 5 years of operating time. Reliable, superior quality and performance Potential polymer reduction Fully automated and easy to use, the ELODE system needs less maintenance and requires minimum operating interface. Less operation supervision Easy parts accessibility for maintenance The ELODE Electro-Osmosis Dehydrator can treat almost all types of wastewater applications. Some examples include: Municipal wastewater Paper-mill wastewater Food wastewater Livestock wastewater Wastewater from dyeing, painting Chemical wastewater Fishery wastewater How Does it Work? The ELODE system achieves dewatering through the dehydration method. It combines the actions of electrophoresis and electro-osmosis. First the sludge cake enters the anode drum and the cathode caterpillar. Then 3-phase AC voltage between the two electrodes push the sludge particles (-) toward the anode and water (+) toward the cathode. Electro-Osmosis Process of the ELODE system Early electro-osmosis, electrophoresis strongly push sludge particles (-) to anode (+) by an electrical potential difference. Intermediate electro-osmosis dehydration through movement of water (+) to cathode (-). Final electro-osmosis capillary pressure forces the absorbed water flow through porous solid to the cathode (-), causing destruction of cell membrane, releasing the intracellular water.

HPÂŽ Series ASME Code Liquid Phase Carbon Adsorption Systems

Siemens Water Technologies is the the exclusive provider of Westates™ brand activated carbon adsorbers. The HP® series carbon adsorber systems are ASME Code stamped pressure vessels designed for high pressure, water applications. These modular designed systems include two adsorbers and a piping skid. The HP® series carbon adsorber systems are designed for a wide variety of water applications including, groundwater remediation, wastewater filtration, tank rinse, pilot testing, leachate treatment, underground storage/spill cleanup. The systems are rated for flow ranges of 500 to 1100gpm when units are operated in series and 1000 to 2200 gpm when arranged in parallel. The adsorbers are designed for operating pressures up to 125 psig and include an ASME Code stamp. The HP®series is available in three different system models, HP-810, HP-1020 and HP-1220. Systems are shipped as separate components, two adsorbers and a piping skid module. The piping module allows the adsorbers to be operated in series or parallel configurations. Features and Benefits ASME Code section V111 stamped Rugged, industrial-grade carbon steel pressure vessels Uniform internal lining (vinyl ester) flange to flange (1020/1220) Schedule 10 304 stainless steel carbon slurry piping Top and side manways for easy inspection Proprietary 316 stainless steel Septa nozzles require no vessel entry to remove/install (1020/1220) Modular design for easy handling and installation Minimal field assembly required

J-PressÂŽ Sidebar Filter Press

The J-Press® sidebar filter press is among the most widely used liquid/solids filtration and separation device obtainable. Sidebar construction, filter plate size range available from 250 mm x 250 mm (9” in) to 2000 mm x 2000 mm (79” in). Operating Pressures 100 psig (7 bar) or 225 psig (16 bar). Versatility of plates, manifolds, automation levels and optional equipment. Pneumatic or electric hydraulic closure systems. Features and Benefits Features Wide range of sizes and configurations Optional expansion piece Automatic Operation Rugged Construction Extensive aftermarket services available Benefits Dewatering solution to most process flows Future expandability Reduced labor Long service life Convenience and reliability for you Product Documentation Sidebar Filter Press Brochure Sidebar Filter Press Brochure - Spanish Portable Dewatering Trailer Mounted J-Press® Filter Press Portable Filter Press for the Oil Drilling Industry Dewatering of Metal Finishing Plant Wastes with the Use of Filter Presses A New Approach to Lime Sludge Disposal

Metal Scavenging Ion Exchange System

The Metal Scavenging Ion Exchange System is designed to be used to remove or scavenge dissolved metals in wastewater. The Metal Scavenging Ion Exchange System is designed to operate at peak efficiency by utilizing packed resin beds in conjunction with counter-current regenerations. Packed resin beds optimize performance by increasing the operating capacity of the resin. Since the resin kinetics are more efficient, smaller resin vessels can be utilized. The metals in the regenerant waste can possibly be recovered in a resalable metallic form using an metal recovery cell (RETEC). The ion exchange systems consist of several fiberglass reinforced plastic (FRP) pressure vessels that are filled with the appropriate amount and type of ion exchange resin. The systems are either skid-mounted or floor-mounted with the valve manifold being pre-piped. A control system, based on a Siemens PLC which controls all the functions of the ion exchange system, including regeneration sequencing and return to operation. Features and Benefits Fully assembled at the factory Factory tested PLC controls for rugged and reliable performance Units are skid-mounted or floor-mounted and totally system integrated Units are match marked for ease of reassembly Rapid installation assured by skidded assemblies and mistake proof electrical connections All components are specifically chosen for wastewater systems

PURELABÂŽ Classic Laboratory Water Purification Systems

PURELAB® Classic water polishing systems deliver ASTM Type I water for those laboratories looking for both outstanding performance and economy. The Classic can handle all your laboratory water needs from reagent preparation and glassware washing to sensitive analyses. This cost-efficient polisher produces 18.2 megohm water for ultrapure water at a cost-effective price. Classic is available in 4 different models, ensuring the most efficient system for whatever application you may need. Typical applications for PURELAB® Classic water purification systems, by model: Classic DI: ICP-ES, Spectrophotometry buffers and general wet chemistry analysis Classic UV: HPLC, ICP-MS, Ion Chromatography and electrochemistry Classic UF: Cell Culture, Molecular Biology, and invitro fertilization Classic UV/UF: Combined technologies of the UV and the UF models Features and Benefits 18.2 megohm purity water dispensed at up to 1.5 liters/minute Consumable change-out reminder for easy to change, front-loading cartridges Complete sanitation of all wetted parts Unique technology provides full traceability and history of purification packs for validation purposes On/off electronic flow controller Dual wavelength UV — 185 nm and 254 nm (Classic UV Model) 5000 Dalton UF Module for pyrogen removal (Classic UF Model) Wall or bench-mountable

Reverse Osmosis Pretreatment System

The Reverse Osmosis Pretreatment System (ROPT) is designed for the preconditioning of industrial wastewaters prior to a Reverse Osmosis unit. The purpose of the ROPT system is to adjust the pH, ORP, and allow for the addition of specialty treatment chemicals, such as anti-scale chemistry. The Reverse Osmosis Pretreatment System (ROPT) consists of several tanks, beginning with a mechanically agitated pH and ORP adjustment tank. In this tank, the pH is adjusted to an appropriate level so the Langlier Index is correct, and the ORP can be adjusted to ensure that all free chlorine is destroyed prior to the Reverse Osmosis (RO) unit. In this same tank, anti-scaling chemistry is added on a volumetric basis to assist in the prevention of scale formation within the RO membranes. The water then overflows to a lift tank. This tank acts as a reservoir for the RO feed pump. The RO lift tank contains level controls that prevent the RO feed pump from running out of water preventing the tank from overflowing. A control system, based on a Siemens PLC, controls all the functions of the ROPT system. The reaction tank contains a Brawn mixer and GLI probes for pH and ORP signals. The pH and ORP signals are displayed on the GLI transmitters in the control panel. The output signals from the GLI transmitters will control the addition of acid and SBS to maintain the proper settings. Anti-scale chemistry is added volumetrically. All additions are made by LMI pumps. Features and Benefits Fully assembled at the factory Factory tested Units are catwalk integrated Units are match marked for ease of reassembly Rapid installation assured by skidded asseblies and mistake proof electrical connections