JellyFish® filter Technical manual Issue 2 Filter Contents JellyFish® filter 1 System components 2 Membrane filtration cartridge 4 System operation 5 Self-cleaning functions System performance 6 7 Treatment efficiency 7 Inlet and outlet pipes 7 System options 8 Design information 9 Configurations and design capacities 9 Bypass design 10 Shallow or low cover installations 11 Submerged (tidal/tailwater) installations 11 Series JellyFish® filter 11 System installation 11 Inspection and maintenance 11 Replacement parts 11 Humes Water Solutions 12 Appendices 13 Contact information 21 JellyFish® filter JellyFish® filter The JellyFish® filter is a tertiary stormwater treatment system featuring membrane filtration to provide exceptional pollutant removal at high treatment flow rates with minimal head loss and low maintenance costs. The JellyFish® filter uses gravity, flow rotation, and • The system provides tertiary level performance with a up-flow membrane filtration to provide tertiary small footprint treatment to stormwater in an underground structure. The proven performance of the JellyFish® filter and Using unique filtration cartridges, each JellyFish® filter high flow rate membranes enables water quality provides a large membrane surface area, resulting in high objectives to be met with a smaller footprint system flow rates and pollutant removal capacity. than typical bioretention systems. The JellyFish® filter efficiently captures a high level of • It has been independently researched and proven The JellyFish® filter has been independently researched stormwater pollutants, including: under laboratory conditions in Australia and both • Total Suspended Solids (TSS), median removal laboratory and field conditions in the United States. efficiency of 85%, including particles down to In the United States, it has received verification under two microns the stringent New Jersey Corporation for Advanced • Total Nitrogen (TN), median removal efficiency of 51% • Total Phosphorous (TP), median removal efficiency of 59% Technology (NJCAT) protocol. • It treats higher flow rates than most filters Each filter cartridge has an effective filter area of • Total Copper (Cu), median removal efficiency of 90% 35.4 m2 designed to treat 5 litres per second (L/s) • Total Zinc (Zn), median removal efficiency of 70%. Designed as a polishing device for constrained sites, the through operational filters. • Above-ground land use is maintained JellyFish® filter is available in a range of sizes to cater for The system is assembled within a fully-trafficable, both at-source and end-of-pipe solutions. precast concrete structure for underground installations on constrained sites, allowing maximum use for above-ground activities. • Maintenance is easy The filter backwashes after peak flows so it can self-clean several times in each storm event. Manual backwash is recommended annually. When cartridge replacement is required (usually every three years), it is a safe and simple process. • We provide world class treatment solutions Humes has a team of water specialists dedicated to delivering sustainable solutions, creating maximum value for your project, accommodating your site conditions, design requirements and construction factors. JellyFish® filter 1 System components • Filter cartridges are designated as either high-flow or draindown cartridges, depending on their location in The JellyFish® filter is comprised of several structural and the cartridge deck. High-flow cartridges placed within functional components: the backwash pool are automatically backwashed after • A cylindrical precast concrete structure which is available in a range of diameters and depths that each storm event. • Draindown cartridges located outside the backwash serves as a vessel providing structural support pool facilitate the draindown of the backwash for a 50 year design life and provides storage for pool. The design flow rate (2.5 L/s) of a draindown accumulated sediment. cartridge is controlled by the lid orifice. The lower • A rigid high-strength fibreglass cartridge deck separates the vessel into a lower chamber and upper chamber, houses the filter cartridges, provides a surface and flow path for treated water to the design flow rate of the draindown cartridge ensures the membranes last for longer periods between scheduled maintenance. • Cartridge lids are fastened into the deck to securely effluent pipe, provides containment of oil and other anchor the filter cartridges. The lids are removable to hydrocarbons below deck and provides a platform allow manual backflushing and replacement of the for maintenance personnel to safely service the filter cartridges when required. Cartridge lids contain filter cartridges. a flow control orifice that is specifically sized for use • The lower chamber provides storage for pollutant separation and membrane filtration. • The upper chamber provides adequate clearance for inspection and maintenance. • A rigid high-strength fibreglass Maintenance Access with high-flow and draindown cartridges. Blank lids have no orifice and are used to cover unoccupied deck apertures in systems that do not use the full rated flow capacity of the system. • A rigid fibreglass backwash pool weir extends 150 mm above the cartridge deck and encloses the Wall (MAW) attenuates influent water velocity high-flow cartridges. During inflow, filtered water and directs flow into the lower chamber through a leaving the high-flow cartridges forms a pool inside large opening in the cartridge deck. In addition, it the weir. When the water level in the pool exceeds provides storage for floatable pollutants that may the weir height it overflows and spills to the cartridge have bypassed the upstream Gross Pollutant Trap deck where it then flows to the outlet pipe. As the (GPT). It also serves as an inspection and maintenance inflow event subsides and pressure decreases, water access point. in the backwash pool reverses flow direction and • JellyFish® membrane filtration cartridges are secured automatically backwashes the high-flow cartridges, to the deck by the cartridge lids. Each filter cartridge cleaning the membrane surfaces. Water in the lower consists of multiple filter tentacles, which treat chamber (below deck) is displaced through the the stormwater by filtering out fine suspended draindown cartridges. particulates (TSS) and particulate-bound pollutants on This self-cleaning mechanism may occur multiple the membrane of each tentacle. Filtered water passes times during a single storm event as rainfall/runoff through the membranes, up the centre tube of each intensities rise and fall, thereby significantly tentacle and exits through the top. extending the service life of the cartridges and the maintenance interval. 2 JellyFish® filter • Large diameter access lids are installed at the surface and defines the filtration zone. The separator skirt and are removed to allow access for maintenance extends the full length of the filtration tentacles and of the system. The upper chamber is designed prevents contamination of the membranes with oil with tapered surrounds to match with finished and floatable debris. The separator skirt also forces surface grades. JellyFish® filter • A separator skirt encloses the filtration cartridge water to enter the filtration zone under low velocities. The separator skirt is attached to the underside of the The JellyFish® filter and components are depicted in cartridge deck. Figure 1 below. • As an option, the inlet pipe can be located below the deck for drainage networks with deep invert levels. In these systems, a deflector plate is installed across the inlet pipe to induce tangential water flow through the channel between the chamber wall and separator skirt. Figure 1 – JellyFish® filter components Maintenance access wall Outlet Inlet Backwash pool High-flow cartridges Draindown cartridge Cartridge deck Separator skirt JellyFish® filter 3 Membrane filtration cartridge Figure 2 – JellyFish® membrane filtration cartridge Head plate The JellyFish® filter utilises multiple lightweight membrane filtration cartridges. Each cartridge consists of Lifting loops Attachment nuts Gasket multiple removable filter elements (“filtration tentacles”) attached to a cartridge head plate. Each filtration tentacle consists of a central perforated tube surrounded by a specialised membrane. A removable oil-resistant polymeric gasket provides a watertight seal between the cartridge and the deck. A JellyFish® membrane filtration Tentacles cartridge is depicted in Figure 2. The cartridge length is 1,372 mm. The dry weight of a new cartridge is less than 9 kg, and the wet weight of a used cartridge is less than 23 kg. No heavy lifting equipment is required during exchange. The filtration tentacle membranes provide a large surface area, resulting in high flow and suspended sediment These values translate to a conservative design removal capacities. A typical JellyFish® cartridge with membrane filtration flux rate (flow per unit surface area) 11 filtration tentacles has 35.4 m of membrane of 0.14 L/s/m2 for the high-flow cartridge and 0.07 L/s/m2 surface area. Hydraulic testing on clean filter cartridges for the draindown cartridge. 2 demonstrated a flow rate of 11.3 L/s at 455 mm of driving head. In addition, the filtration membrane has been treated to allow biofilm to grow but not clog the pores of the Extensive independent field testing, including testing membrane. The flow rating of a particular JellyFish® filter at an urban site with high intensity rainfall and runoff, cartridge is based on the membrane filtration surface has demonstrated consistently high pollutant removal area of the cartridge and data collected from both performance with a conservative design flow rate of laboratory testing and field testing. The cartridge deck 5 L/s for the high-flow cartridges and 2.5 L/s for the contains apertures for each filter cartridge. draindown cartridges. 4 JellyFish® filter System operation JellyFish® filter Gravitational forces remove coarse sediment (generally >50 microns), particulate-bound pollutants (nutrients, As a tertiary treatment system, the JellyFish® filter toxic metals, hydrocarbons), free oil and floatable is designed to be an “offline” structure, as part of a trash and debris (that may bypass upstream primary treatment train. For effective operation, the system treatment devices). Large, heavy particles fall to the sump requires a difference in elevation between upstream and (sedimentation) and low specific gravity pollutants rise to downstream water levels. Typically, a minimum 455 mm the surface (floatation) behind the MAW. of driving head is designed into the system but may vary from 305 mm to 610 mm depending on specific Treatment begins when flow enters the system through site requirements. the inlet pipe (standard). Below-deck inlet pipes are offered as an option. Influent enters the MAW zone and The JellyFish® filter uses gravity, flow rotation and passes through a large opening in the deck to the lower membrane filtration treatment to remove pollutants chamber. The large deck opening and change in flow from stormwater runoff. These functions are depicted in direction attenuate the influent flow velocity. Buoyant Figure 3 below. pollutants remain on the surface in the MAW zone. Figure 3 – JellyFish® filter functions Outlet Inlet Gravitational particles settling Flow rotation Membrane filtration JellyFish® filter 5 Flow into the lower chamber must then pass tangentially Self-cleaning functions around the separator skirt protecting the cartridges and increasing the flowpath length. Coarse sediment The JellyFish® filter utilises several self-cleaning settles out of the MAW zone into the sump. As water processes to remove accumulated sediment from the flows tangentially around the separator skirt in the external surfaces of the filtration membranes, including lower chamber, the large opening in the bottom of the automatic backwash of the high-flow cartridges, separator skirt and upward change in direction further vibrational pulses, and gravity. These processes have reduces flow velocity and enhances particle separation. been confirmed by more than 12 months of full As a result, sediment settles in the sump. scale prototype testing. Combined, these processes significantly extend the cartridge life, maintenance Flows pass through the cartridge in the filtration zone. interval and reduce life-cycle costs. Each filter cartridge consists of multiple tentacles. Hydraulic pressure across the entire membrane surface Automatic backwash occurs with the high-flow area causes water to penetrate the filtration tentacles. cartridges at the end of each runoff event. This can occur Water enters the membrane pores radially and deposits multiple times during a single storm event as intensity fine particulates on the exterior membrane surface. and driving head varies. As the inflow subsides and Filtered water flows into the centre drain tube of each driving head decreases, water in the backwash pool tentacle, the water then flows upward and out the top. reverses flow direction and automatically backwashes the high-flow cartridges, removing sediment from the Water exiting the top of the tentacles combines under membrane surfaces. Water in the lower chamber (below the lid, where the combined flow exits the cartridge deck) is displaced through the draindown cartridges. through the orifice with a pulsating fountain effect into the backwash pool. When the water level in the Vibrational pulses occur as a result of complex and backwash pool exceeds the weir height it overflows to variable pressure and flow direction conditions that the outlet pipe. arise in the deck during operation. During forward flow a stream of filtered water exits the top of each filtration Outside the backwash pool, the draindown cartridge cartridge and encounters resistance from the turbulent provides treatment at a reduced flow rate (2.5 L/s) and pool of water in the backwash pool. Water is forced allows the treated water captured in the backwash pool through the cartridge lid orifice into the backwash pool to return through the cartridges and balance water with a pulsating fountain effect. The resulting pulses pressure as the storm event ends. transmit vibrations through the deck to the membranes, thereby dislodging accumulated sediment. The effect As particles build up on the external membrane is pronounced at higher flow rates, and influences surface, the pores progressively become smaller. This all cartridges. process, referred to as “filter ripening”, significantly 6 improves the removal efficiency relative to a brand Accumulated sediment on the membranes will settle new or clean membrane. Filter ripening accounts for under gravity both during inflow events and inter-event the ability of the JellyFish® filter to remove particles dry periods. As fine particles form into larger masses finer than the nominal pore size (20 microns) rating on the membrane surface, adhesion to the membrane of the membranes. An animation of the JellyFish® surface lessens, and sediment sheds away from the filter operation and maintenance is available at membrane. Chemical processes and biofilm effects also humeswatersolutions.com.au. play a role. JellyFish® filter Inlet and outlet pipes The JellyFish® filter has been designed to provide tertiary An above-deck inlet pipe configuration is standard level treatment and should be combined with a Gross for the JellyFish® filter and an optional below-deck Pollutant Trap (GPT) as part of a treatment train to ensure inlet configuration is available on request. Specific site optimal performance. constraints generally determine the configuration that JellyFish® filter System performance is most favourable. In both configurations, the invert level of the outlet pipe is identical to the cartridge deck elevation. Treatment efficiency Extensive research of the JellyFish® filter has proven its performance under Australian laboratory and US field conditions. Field testing in the United States has received independent verification under the stringent New Jersey Corporation for Advanced Technology (NJCAT) protocol. The results are summarised in Table 1 below. Table 1 – JellyFish® filter performance summary Pollutant Median reduction TSS 85% TP 59% TN 51% Cu 90% Zn 70% Total oil and grease 62% Reference: University of Florida (2011). JellyFish® filter 7 System options The JellyFish® filter can be customised to suit your project requirements. As each treatment train is unique and units are designed to match surface levels, please contact Humes Water Solutions for assistance, however, Table 2 below can be used as a guide. Table 2 – JellyFish® filter model range and details JellyFish® model Number of high-flow cartridges Number of draindown cartridges Inlet pipe diameters (mm) Treatment flow (L/s) JF1200-1-1 1 7.5 JF1200-2-1 2 12.5 JF1800-3-1 3 JF1800-4-1 4 JF1800-5-1 5 JF1800-6-1 6 32.5 JF2400-6-2 6 35.0 JF2400-7-2 7 40.0 JF2400-8-2 8 JF2400-9-2 9 50.0 JF2400-10-2 10 55.0 JF3000-11-3 11 JF3000-12-3 12 JF3000-12-4 12 70.0 JF3000-13-4 13 75.0 JF3000-14-4 14 80.0 JF3000-15-4 15 85.0 JF3000-16-4 16 JF3000-17-4 17 95.0 JF3000-18-4 18 100.0 JF3000-19-4 19 105.0 JF3600-20-5 20 112.5 JF3600-21-5 21 JF3600-22-5 22 JF3600-23-5 23 JF3600-24-5 24 JF3600-25-5 25 137.5 JF3600-26-5 26 142.5 JF3600-27-5 27 147.5 150 - 225 2 22.5 27.5 45.0 1,100 1,382 min 3,500 min 6,500 max 1,800 1,539 min 3,828 min 6,500 max 2,400 1,415 min 3,715 min 6,500 max 1,602 min 3,900 min 6,500 max 225 - 300 67.5 3,000 90.0 300 - 375 350 mm intervals 8 JellyFish® filter 350 mm intervals 117.5 122.5 127.5 132.5 3,600 2,045 min Note: Designers should allow for upstream and downstream bypass pits and a bypass pipe link in a triangular configuration. Total structure height (mm) 62.5 4 5 Depth to outlet invert (mm) 17.5 1 3 Nominal structure diameter (mm) 4,335 min 6,500 max For the standard above-deck inlet pipe configuration, the JellyFish® filter Design information invert elevation of the inlet pipe is typically set 150 mm The JellyFish® filter has many flexible design features to higher than the invert elevation of the outlet pipe. This accommodate a wide range of specific site requirements generally ensures that the inlet pipe will drain completely and constraints. Please contact Humes Water Solutions after each rainfall/runoff event, while providing sufficient for assistance. volume within the MAW zone for surface accumulation of floatables below the inlet pipe. The elevation of the inlet pipe can be varied as required. Configurations and design capacities The JellyFish® filter can accommodate a range of angles Design flow capacities and pollutant capacities for between the inlet and outlet pipes. Standard outlet pipe standard JellyFish® filter configurations are shown in locations are within a 180° span about the circumference Table 2 on the previous page. of the structure (refer to Figure 4 below). The separation angle relationship of the inlet pipe to the outlet pipe can The JellyFish® filter standard model numbers provide vary from 90 to 270 degrees to provide maximum design information about the manhole inside diameter and flexibility. Contact Humes Water Solutions for assistance cartridge counts for high-flow and draindown cartridges. with angles outside this range. The JellyFish® filter can For example, the JellyFish® filter model number be installed at a range of depths of cover as presented JF1800-5-1 is an 1,800 mm diameter structure with five in Table 2. high-flow cartridges and one draindown cartridge. With systems using an external bypass from an upstream Figure 4 – Typical JellyFish® filter outlet locations diversion structure, the driving head is calculated as the Inlet Outlet difference in elevation between the top of the diversion structure weir and the invert of the JellyFish® filter outlet pipe. A minimum of 455 mm is required to drive the flow through the JellyFish® filter at the rates shown in Table 2. Recommended design flows of 5 L/s for high flow cartridges and 2.5 L/s for draindown cartridges are to ensure longevity of the filter. Submerged or backwater conditions may be accommodated in some circumstances and assistance from Humes Water Solutions engineers is recommended. JellyFish® filter 9 The pressure relief pipe height and diameter can be Bypass design varied to accommodate the design peak flow rate and The JellyFish® filter should be designed with an offline system driving head requirements. For these systems, the configuration for most catchments. All stormwater filter driving head is calculated as the difference in elevation systems will perform for a longer duration between between the top of the pressure relief pipe and the invert required maintenance services when designed and of the outlet pipe. applied in offline configurations. A standard offline configuration has an external bypass that uses an When the internal bypass option is utilised, peak flow upstream diversion structure. The elevation difference rates receive membrane filtration treatment up to the between the top of the diversion structure weir and the filtration design flow rate, with the balance of the peak JellyFish® filter outlet pipe invert should be a minimum flow receiving primary treatment only. In these cases, of 455 mm. Excess flow that overflows the diversion weir, increased sump depth may be required to increase bypasses the JellyFish® filter. sediment storage capacity and to minimise re-suspension of previously captured sediment at peak flow rates. For smaller sites an online configuration might be more Contact Humes Water Solutions for design assistance. suitable. In these cases, an optional internal bypass pressure relief pipe(s) can be placed in one or multiple cartridge receptacles within the JellyFish® filter. Figure 5 – JellyFish® filter offline layout Bypass Junction pit Diversion manhole Flo t fl en w tm ea Tr ow JellyFish® filter 10 JellyFish® filter System installation The recommended minimum depth to outlet invert level The JellyFish® filter can be installed by a civil or plumbing is 1,040 mm. For sites that require less depth of cover, contractor in much the same way as a manhole or other the JellyFish® filter can be adapted, however, this will stormwater drainage structures. It is supplied on-site decrease accessibility for maintenance. Contact Humes in separate, easily identifiable components, with an Water Solutions for assistance. upstream bypass pit and downstream junction pit. JellyFish® filter Shallow or low cover installations The JellyFish® filter is lowered into place by a crane or Submerged (tidal/tailwater) installations excavator, the components interlock and the tapered surround can be rotated to match a surface grade (if the The JellyFish® filter is designed to function optimally system is located in road pavement). The system arrives under free-surface flow conditions. For systems that to the site with the internal parts fully assembled. may experience submerged or backwater conditions due to tailwater or tidal effects, driving head calculations must account for water elevation during the backwater Inspection and maintenance condition. The JellyFish® filter treatment functions will continue to operate despite backwater conditions. For inspection and maintenance information, please refer A customised design will be required to ensure litter to the JellyFish® filter owner’s manual. capture and backwash. Contact Humes Water Solutions for assistance. An animation of the JellyFish® filter operation and maintenance is available at; humeswatersolutions.com.au. Series JellyFish® filter For sites with water quality treatment flow rates that Replacement parts exceed the design flow rate of the largest standard JellyFish® filter model, custom systems can be designed Replacement parts for the JellyFish® filter can be ordered that hydraulically connect multiple JellyFish® filters by contacting Humes Water Solutions at; in series. National sales 1300 361 601 or via the ‘contact’ section at humeswatersolutions.com.au. For any design questions or custom modifications, contact Humes Water Solutions for assistance. JellyFish® filter 11 Humes Water Solutions Humes Water Solutions is a specialist division within Humes now operates 16 accredited plants (ISO9001) the Humes business, dedicated to the provision of and 20 sales offices to provide a truly national footprint stormwater treatment, harvesting and reuse, and and meet the needs of our customers irrespective of detention solutions. their location. Our team has been developed to provide an unparalleled Our range of stormwater solutions also includes our depth of knowledge and experience for our customers, multi-award winning* RainVault® harvesting and reuse which takes Humes Water Solutions beyond the system, and the new StormTrap® detention system. traditional barriers of company-based solutions. A combination of graduate and post graduate personnel For Humes and its parent company, Holcim Ltd, with working backgrounds in the private and public sustainable development is a key priority. Our stormwater sector ensures the delivery of well-measured and treatment products demonstrate our commitment to practical advice for our customers. protecting the environment. We are dedicated to the development and protection For more information on any of our products, or for a of our water resources and to this end, we undertake selection of technical papers published by Humes Water rigorous research and development of our products, stay Solutions, please visit us at humeswatersolutions.com.au. abreast of stormwater issues and solutions around the world, and publish peer-reviewed technical papers on issues relevant to the stormwater industry. As a part of the Humes business, Humes Water Solutions has access to a national infrastructure, a dedicated engineering design team, and over 100 years design, manufacturing and construction experience. 12 JellyFish® filter * • 2008 Winner - Excellence in Stormwater Harvest & Reuse for the Riverstone Crossing RainVault from the Stormwater Industry Association. • 2008 Fieldforce Environmental Product of the Year Award from the Master Plumbers and Mechanical Services Association of Australia. • 2006 CivEnEx - Most Innovative Product. JellyFish® filter Appendices JellyFish® filter standard drawings JellyFish® filter design/quotation request JellyFish® filter inspection and maintenance log JellyFish® filter 13 Humes Holcim (Australia) Pty Ltd ABN 87 099 732 297 18 Little Cribb st Milton QLD 4064 Australia Phone (07) 3364 2800 Fax (07) 3364 2835 www.humes.com.au JellyFish® filter design/quotation request Date: Project information: Consultant information: Project number: Contact name: Project name: Company: Closing date: Phone number: Jobsite address: Fax number: State: Email: Land use (tick one): Commercial Service station Government Road/hardstand Residential Other Industrial Mine site JellyFish® filter information Structure number: Inlet pipe diameter (mm): Surface level: Outlet pipe diameter (mm): Inlet invert level: Pipe material: Outlet invert level: Latitude/longitude: / Inlet configuration (circle one option): Above deck / below deck Load class (circle one option): D/G Desired JellyFish® filter outlet orientation JellyFish® model required (circle model number) 90° Offline system JF1000-1-1 JF1800-3-1 JF2400-6-2 JF3000-11-3 JF3600-20-5 JF1000-2-1 JF1800-4-1 JF2400-7-2 JF3000-12-3 JF3600-21-5 JF1800-5-1 JF2400-8-2 JF3000-12-4 JF3600-22-5 Inlet pipe Inlet Pipe JF1800-6-1 JF2400-9-2 JF3000-13-4 JF3600-23-5 JF2400-10-2 JF3000-14-4 JF3600-24-5 JF3000-15-4 JF3600-25-5 JF3000-16-4 JF3600-26-5 JF3000-17-4 JF3600-27-5 JF3000-18-4 JF3000-19-4 Please complete this form and email to: [email protected] 180° 270° Humes Holcim (Australia) Pty Ltd ABN 87 099 732 297 18 Little Cribb st Milton QLD 4064 Australia JellyFish® filter inspection and maintenance log Owner: GPS coordinates: Location: JellyFish® filter model number: Land use: Commercial: Industrial: Service station: Road/highway: Mine site: Residential: Other: Date: Time: Inspector Maintenance contractor Visible oil present (Y/N) Oil quantity removed (Y/N) Floatable debris present (Y/N) Floatable debris removed (Y/N) Water depth in backwash pool Draindown cartridges backflushed (Y/N) Draindown cartridges externally rinsed and re-commissioned (Y/N) New tentacles put on draindown cartridges (Y/N) High-flow cartridges backflushed (Y/N) High-flow cartridges externally rinsed and re-commissioned (Y/N) New tentacles put on high-flow cartridges (Y/N) Sediment depth Sediment removed (Y/N) Cartridge lids intact (Y/N) Other comments: (Deck condition, blockages of upstream/ downstream junctions, skirts, etc..) Phone (07) 3364 2800 Fax (07) 3364 2835 www.humes.com.au Contact information National sales 1300 361 601 humeswatersolutions.com.au [email protected] Head Office New South Wales Tasmania 18 Little Cribb St Grafton Launceston Milton 4064 QLD Ph: (02) 6644 7666 Ph: (03) 6335 6300 Ph: (07) 3364 2800 Fax: (02) 6644 7313 Fax: (03) 6335 6330 Fax: (07) 3364 2963 Newcastle Ph: (02) 4032 6800 South Australia Queensland Fax: (02) 4032 6822 Brisbane/Gold Coast Sydney Ph: (08) 8168 4544 Ph: (07) 3866 7100 Ph: (02) 9832 5555 Fax: (08) 8168 4549 Fax: (07) 3866 7101 Fax: (02) 9625 5200 Rockhampton Tamworth Ph: (07) 4924 7900 Ph: (02) 6763 7300 Fax: (07) 4924 7901 Fax: (02) 6763 7301 Adelaide Western Australia Gnangara Ph: (08) 9302 8000 Sunshine Coast Ph: (07) 5472 9700 Fax: (08) 9309 1625 Victoria Perth Fax: (07) 5472 9711 Echuca Ph: (08) 9351 6999 Townsville Ph: (03) 5480 2371 Fax: (08) 9351 6977 Ph: (07) 4758 6000 Fax: (03) 5482 3090 Fax: (07) 4758 6001 Melbourne Northern Territory Ph: (03) 9360 3888 Fax: (03) 9360 3887 Darwin Ph: (08) 8984 1600 Fax: (08) 8984 1614 National sales 1300 361 601 humeswatersolutions.com.au [email protected] A Division of Holcim Australia This brochure supersedes all previous literature on this subject. As the specifications and details contained in this publication may change please check with Humes Customer Service for confirmation of current issue. This document is provided for information only. Users are advised to make their own determination as to the suitability of this information for their own specific circumstances. We accept no responsibility for any loss or damage resulting from any person acting on this information. Humes is a registered business name of Holcim (Australia) Pty Ltd. The JellyFish filter is manufactured, marketed, and sold by Humes Water Solutions under licence from Imbrium Systems Inc, Canada. JellyFish is a registered trademark of Imbrium Systems Inc, Canada and is used in Australia under license. Humes is a registered trademark of Holcim Australia Pty Limited. JellyFish is registered pursuant to Australian Patent Application No. 2008286748 (PCT/US08/73311), US Patent Application No. 11/839,303 and 12/014,888 and International Publication No. WO 2009/023832 A1. Rainvault is a registered trademark of Holcim (Australia) Pty Ltd. StormTrap is a registered trademark of StormTrap LLC. © January 2014 Holcim (Australia) Pty Ltd ABN 87 099 732 297
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