Page 1 Issue 5.03 Aquamatic Stationary Wastewater Samplers User Guide...
Page 3 CONTENTS KEY FIGURES WARRANTY CONTENTS OF PACKAGE INTRODUCTION CHOOSING A SITE PREPARING THE SITE INSTALLATION OPERATION MAINTENANCE TECHNICAL SPECIFICATION...
Page 4: Table Of Contents
................2.1 The Sampling Process ..............2.1 Aquacell S50/S100/S200/S300(Series) Samplers ....2.2 Aquacell S50 Wastewater Sampler ..........2.2 Aquacell S100 Wastewater Sampler ..........2.3 Aquacell S200 Wastewater Sampler ..........2.3 Aquacell S300 Series Wastewater Samplers ........2.4 ..........2.4 Aquacell S310 Wastewater Sampler ..........2.4 Aquacell S320 Wastewater Sampler ..........2.4...
Page 5 Sampler / Sample Collection Vessel Location ......4.2 Gravity Drain (Wastewater) Installation (if required) ......4.2 Electrical Power Supply Installation ..........4.2 (Optional) Ancillary Signal Connection ..........4.3 Aquacell S100 Sampler ...............4.5 Sampler / Sample Collection Vessel Location .......4.6 Gravity Drain (Wastewater) Installation (if required) ......4.6 Electrical Power Supply Installation ..........4.6...
Page 6 Aquacell S50 Sampler ..............5.1 Sampler ..................5.1 Sample Collection Vessel (SCV) ...........5.2 Electrical Connections to the Sampler Module ......5.2 Aquacell S100 Sampler ..............5.4 Sampler ..................5.4 Sample Collection Vessel (SCV) ...........5.4 Electrical Connections to the Sampler Module ......5.5 Aquacell S200 Series Samplers ..........5.7...
Page 7 Pressurised Pipeline Interface (PPI) ..........5.17 ..............5.17 Installation Procedure: (Optional) Back-up Battery Installation ........5.18 ..............5.18 S50 / S200 Samplers ................5.18 S100 Sampler ..............5.18 S300 Series Samplers OPERATION ...................6.1 Definitions ..................6.1 Basic Operations ................6.3 Controlling the Sampler ..............6.3 ................6.3 Operating Buttons ..............6.3 Programming Buttons Switching on the Power ..............6.4 ..........6.4...
Page 8 Program Settings - Sampler ............6.31 Special Options ................6.34 Program Settings - Bottler ............6.34 Special Options Indication ............6.35 Running the Program ..............6.36 Taking Spot Samples During a Sampling Program .....6.37 Bottlers ..................6.38 Detachable Bottlers ..............6.38 Self-Emptying Bottler ..............6.38 Leaving the Sampler to Operate Automatically ....6.40 Returning to Collect Samples ..........6.40...
Page 9 Maintenance Contract ..............7.1 User Maintenance .................7.1 Cleaning The Sample Tract ............7.2 Intake Hose Assembly ..............7.3 Sample Chamber / Chamber Top ..........7.3 Sample Collection Vessel ..............7.4 ..........7.4 10 Litre Polypropylene Container Format: ..........7.4 12 x 0.75 Litre Glass Bottler Format: .............7.4 12 x 1 Litre P.E.T.
Page 10 Figure 4.L: Installation Drawing, Pressurised Pipeline Interface - S300 Version ................4.22 Figure 5.A: Wiring Details, Aquacell S50 Sampler ......5.3 Figure 5.B: Wiring Details, Aquacell S100 Sampler ......5.6 Figure 5.C: Wiring Details, Aquacell S200 Sampler ......5.9 Figure 5.D: Wiring Details, Aquacell S300 Series Samplers ..5.12...
Page 11: Sampler - New Product Warranty
Details of Breakdown Service can be found in the MAINTENANCE section of this User Guide (see page 7.8 for further information). Please read this User Guide carefully, as neither Aquamatic Ltd., nor its agents accept responsibility for any damage or defect caused by misuse, abuse, neglect or incorrect operation.
Page 12: Discrepancies In Content Of Consignment / Damage In Transit
In any event Aquamatic Ltd., does not accept liability for any consequential loss or damage arising from the use or failure of the product or any information provided, including, but not limited to, economic or financial loss, damage to peripheral equipment or products, loss of use, productivity or time.
Page 13: Contents Of Package
CONTENTS OF PACKAGE The following is an illustrated list of most of the items appearing on the price list. This is a usefull means of identifying the items ordered, in order to ensure your order has been executed correctly. Some price list items are omitted as they are fully integrated and not able to be depicted visually.
Page 14: Samplers - S50
Samplers - S50 Aquacell S50 Wastewater Sampler Part Number CL-1210-voltage Aquacell S50 Intake Hose Clip Sampler Unit (S50) 2 Anchor bolts Spare Volume Control Tube User Guide 2 Intake Hose Anchors Intake Hose with filter (5 metres long) [1] not included when PPI is specified [1] not included when PPI is specified...
Page 15: Samplers - S100
Samplers - S100 Aquacell S100 Wastewater sampler Part Number: CL-1220-voltage Aquacell S100 Intake Hose Clip Sampler Unit Wall mounting plate Spare Volume with Control Tube 4 Anchor bolts User Guide Strain relief bracket with 2 fixing screws Intake Hose with...
Page 16: Samplers - S200
Samplers - S200 Aquacell S200 Wastewater Sampler Part Number CL-1230-voltage Aquacell S200 Intake Hose Clip Sampler Unit Fridge Keys Spare Volume Control Tube User Guide Strain relief bracket with 2 fixing screws Intake Hose with filter (10 metres long) 2 Intake Hose Anchors [1] not included when PPI is specified...
Page 17: Samplers - S310 / S320
Samplers - S310 / S320 Aquacell S310 Wastewater Sampler Part Number CL-1240-voltage Aquacell S320 Wastewater Sampler Part Number CL-1260-voltage Aquacell S310/S320 Intake Hose Clip Sampler Unit User Guide Spare Volume Control Tube Intake Hose with filter (10 metres long) 2 Intake Hose Anchors Note: The Sampler's lower compartment is used to transport the Sample Collection Vessel, ancillaries, etc...
Page 18: Samplers - Aquacell S310H/S320H
Samplers - S310H/S320H Aquacell S310H Wastewater Sampler Part Number CL-1250-voltage Aquacell S320H Wastewater Sampler Part Number CL-1270-voltage Aquacell S310H/ Intake Hose Clip S320H Sampler Unit User Guide Spare Volume Control Tube Intake Hose with Air Cowls (including filter (10 metres 9, M4 fixing screws/ long) nylon washers)
Page 19: Sample Collection Vessels (Scv
Sample Collection Vessels (SCV's) Single Container Options 10 Litre Polypropylene Part Number CL-3005 Container 25 Litre Polyethylene Part Number CL-3001 Container Bottler Options Removable Bottlers 2 x 4.5 Litre Self-Emptying Part Number CL-3006 Polypropylene Bottler (including expansion coupling) 4 x 4.5 Litre Glass Bottler Part Number CL-3007 4 x 5 Litre HDPE Bottler Part Number CL-3008...
Page 20: Integral Bottlers
Integral Bottlers 12 x 1 Litre PET Bottler Part Number CL-3003 24 x 1 Litre HDPE Bottler Part Number CL-3004 2 x 4.5 Litre Self-Emptying Part Number CL-3108 Polypropylene Integral Bottler (plus additional integral parts) Optional Equipment - Electrical Ancillary Signal Connection, Part Number CL-4004 Basic (plus additional integral parts)
Page 21 Pressurised Pipeline Interface Part Number CL-4147-voltage - Standard PPI Unit Pipe Extension Assembly 4 Anchor bolts Intake Hose Clip (PPI) Intake Hose (10 2 PPI Housing Door metres long) Keys Pressurised Pipeline Interface Part Number CL-4120-voltage - S300 Intake Hose (10 Intake Hose Clip metres long) (PPI)
Page 22: Optional Equipment - Mechanical
Optional Equipment - Mechanical Auxiliary Equipment Part Number CL-4117 Enclosure (plus additional integral parts) Auxiliary Equipment Part Number CL-4108 Mounting Plate 1.10 Intake Hose Support Part Number CL-4010 Bracket Kit Wastewater Drain (plus Part Number CL-4102 additional integral parts) Consumable Spares Battery, Sampler Part Number CL-6026 Desiccant Bag...
Page 23: Introduction
INTRODUCTION The Sampling Process Aquacell Stationary Wastewater Samplers extract individual sample shots from an open (non pressurised) source, such as a wastewater channel or vessel, according to a predetermined program and deposit them into one or more Sample Collection Vessels (SCVs). In this way the user is provided with a representative sample of the wastewater discharge.
Page 24: Aquacell S50/S100/S200/S300(Series) Samplers
• Sent to a specialist analytical laboratory for analysis - when an independent assessment of the discharge is required. • Made available, to the water company receiving and treating the wastewater, as a source of data on which to base charges. (Self- monitoring is being increasingly encouraged by water companies both in the interests of accurate charging and to encourage dischargers to improve plant efficiency, and so reduce the pollution...
Page 25: Aquacell S100 Wastewater Sampler
Aquacell S100 Wastewater Sampler This is a wall mounting automatic sampler, featuring the Aquacell Sampler Module. The Aquacell S100 is intended for either indoor or outdoor applications. The Sampler is supplied with a Bracket / Wall Mounting Plate / Mounting Bolts to facilitate attachment to a wall or similar vertical surface.
Page 26: Aquacell S300 Series Wastewater Samplers
The sampler is suitable for operation at ambient temperatures between +5˚C and +40˚C. Aquacell S300 Series Wastewater Samplers A range of floor mounted automatic samplers, based on a metal cabinet, featuring the Aquacell Sampler Module. The Sampler Module is panel mounted in the upper section of the cabinet. The lower section of the cabinet is the Sample Container Housing.
Page 27: Aquacell S320H Wastewater Sampler
Aquacell S320H Wastewater Sampler This sampler is intended for mainly outdoor applications. It has full Sample Temperature Control. The upper section of the Cabinet is fully enclosed by a lockable Lift-Up Protection Cover. The sampler is suitable for operation at ambient temperatures between -10˚C and +50˚C. The Pressurised Pipeline Interface (PPI) This is an equipment which either stands along-side the Sampler (PPI - Standard Version, specified for use with S50, S100 and S200 Samplers), or is integral to the Sampler (PPI - S300 Version used...
Page 28: Condensate Drain (S320 & S320H Only)
Condensate Drain (S320 & S320H only) A Condensate Drain is incorporated in S320 and S320H samplers (Samplers with sample temperature control) unless a wastewater drain is specified. The Condensate Drain outlet discharges the small volume of condensate water produced by the refrigeration system in the Samplers Lower Compartment.
Page 29: Electrical
Electrical Aquacell S50/S100/S200/S300 Wastewater Samplers are powered by an AC mains supply. As all mains voltage terminals are safely housed behind protective covers then contact with dangerous voltages is avoided. Mechanical Care should be taken, whilst the Sampler is in operation, to avoid trapping fingers in the pinch valve assembly.
Page 31: Choosing A Site
CHOOSING A SITE • The Sampler should not be situated in a classified hazardous area. • The Sampler should be installed as close to the Sampling Point as possible to minimise the potential for cross-contamination between successive samples. Environmental Considerations See Technical Specification (page 8.8), for IP Rating and Ambient Temperature Range.
Page 32 • The Sampler’s Intake Hose should be installed so that it is self- draining. A single high point is permitted (such as a channel wall), as the sample tract is open between samples. See Figure 3.A below. • Choose a Sampling Point where you can be sure that the wastewater is well mixed –...
Page 33: Pressurised Sampling Points
• S320 and S320H Samplers, only - These samplers feature sample refrigeration and need to dispose of a small volume of condensate water. Samplers fitted with a Wastewater Drain are able to dispose of Condensate Water. Samplers not fitted with a Wastewater Drain, have a Condensate Water Drain.
Page 34 • Maximum Pipeline Tapping Point Pressure - The maximum permissible pipeline pressure is 6 Bar. • A Gravity Drain will be necessary to dispose of unwanted wastewater from the PPI to a suitable disposal point. • If the Sampler is to be operated with a 2 x 4.5 Litre Self-Emptying Bottler or a Wastewater Drain has been specified (S300 Series Samplers, only), an additional Gravity Drain will be necessary to dispose of unwanted wastewater to a suitable disposal point...
Page 35: Preparing The Site
PREPARING THE SITE Aquacell S50 Sampler First remove all packing material from the Sampler and its Ancillaries Figure 4.A: Installation Drawing, S50 Sampler All dimensions are in mm.
Page 36: Sampler / Sample Collection Vessel Location
Sampler / Sample Collection Vessel Location A wall or similar flat surface is required, on which to mount the Sampler. The Sampler should be positioned above the Sample Collection Vessel (SCV) such that the Samplers Pinch Valve Tube, is able to engage the inlet of the SCV to a depth of 60mm. The Sampler / SCV should be positioned at a convenient height for operator access.
Page 37: (Optional) Ancillary Signal Connection
Samplers Ancillary Signals Cable. Cables to / from the Auxiliary Equipment may need to be terminated in one or more Signal Isolators (Not supplied by Aquamatic) mounted adjacent to the Sampler. The isolators should be connected to the Sampler via the Samplers Ancillary Signals Cable.
Page 38 Figure 4.B: Connecting the Sampler to Typical Auxiliary Equipment, Aquacell S50 Sampler...
Page 39: Aquacell S100 Sampler
Aquacell S100 Sampler First remove all packing material from the Sampler and its Ancillaries Figure 4.C: Installation Drawing, S100 Sampler Notes: • All dimensions are in mm. • Shown with a 10 Litre Container and (optional) Suspension Bracket.
Page 40: Sampler / Sample Collection Vessel Location
Sampler / Sample Collection Vessel Location A wall or similar flat surface is required, on which to mount the Sampler. The Sampler should be positioned above the Sample Collection Vessel (SCV) such that the Samplers Pinch Valve Tube, is able to engage the inlet of the SCV to a depth of 60mm. The Sampler / SCV should be positioned at a convenient height for operator access.
Page 41: (Optional) Ancillary Signal Connection
Samplers Ancillary Signals Cable. Cables to / from the Auxiliary Equipment may need to be terminated in one or more Signal Isolators (Not supplied by Aquamatic) mounted adjacent to the Sampler. The isolators should be connected to the Sampler via the Samplers Ancillary Signals Cable.
Page 42 Figure 4.D: Connecting the Sampler to Typical Auxiliary Equipment, Aquacell S100 Sampler...
Page 43: Aquacell S200 Sampler
Aquacell S200 Sampler First remove all packing material from the Sampler and its Ancillaries except for the wooden palette on which the Sampler stands. Figure 4.E: Installation Drawing, S200 Sampler Notes: • The Samplers Lower Compartment is used to transport the Sample Collection Vessel, ancillaries etc.
Page 44: Sampler Location
Sampler, then the cables to / from the Auxiliary Equipment should be terminated in one or more Signal Isolators (not supplied by Aquamatic) mounted adjacent to the Sampler. The isolators should be connected to the Sampler via the Samplers Ancillary Signals Cable.
Page 45 Figure 4.F: Connecting the Sampler to Typical Auxiliary Equipment, Aquacell S200 Sampler 4.11...
Page 46: Aquacell S300 Series Samplers
Aquacell S300 Series Samplers First remove all packing material from the Sampler and it’s ancillaries except for the wooden palette on which the Sampler stands. Note: The Sampler’s Lower Compartment is used to transport the Sample Collection Vessel, ancillaries etc. Figure 4.G: Installation Drawing, S300 Series Sampler - Top, Left Side and Front Views All dimensions are in mm.
Page 47 Figure 4.H: Installation Drawing, S300 Series Sampler - Right Side and Rear Views All dimensions are in mm. 4.13...
Page 48: Sampler Location
Sampler Location A flat, horizontal mounting base (typically a 100mm thick concrete pad) should be provided for the Sampler, preferably with a standing area in front and service access to the rear. Gravity Drain (Condensate) Installation (if required) Construct the drain from 21.5mm O/D plastic pipe. It is important when configuring the drain to avoid the possibility of water being removed from the trap by siphon action.
Page 49: Gravity Drain For Self Emptying Bottler (If Required)
Gravity Drain for Self Emptying Bottler (if required) Samplers specified with a 2 x 4.5 litre Self-emptying Integral Bottler are supplied with a Wastewater Drain. The bottler drain outlet and the Wastewater Drain outlet are connected to a P-Trap using the compression fittings supplied Electrical Power Supply Installation A suitable electrical supply should be provided for the Sampler - see...
Page 50: (Optional) Auxiliary Equipment Mounting Plate
Cables to / from the Auxiliary Equipment may need to be terminated in one or more Signal Isolators (Not supplied by Aquamatic) mounted adjacent to the Sampler. The isolators should be connected to the Sampler via the Samplers Ancillary Signals Cable.
Page 51 Thread the mains cable out through the top cable gland on the left- hand side of the enclosure and terminate it in the Auxiliary Power Connector provided. Thread the Auxiliary Signals Cable in through the bottom cable gland on the left-hand side of the enclosure and couple it to the auxiliary equipment as required.
Page 52 Figure 4.I: Connecting the Sampler to Typical Auxiliary Equipment, Aquacell S300 Series Samplers 4.18...
Page 53 Figure 4.J: Wiring Details - (Optional) Auxiliary Equipment Mounting Plate/(Optional) Auxiliary Equipment Enclosure 4.19...
Page 54: Pressurised Pipeline Interface (Ppi) - Standard Version .4.20
Pressurised Pipeline Interface (PPI) - Standard Version First remove all packing material from the PPI and it’s ancillaries. Figure 4.K: Installation Drawing, Pressurised Pipeline Interface - Standard Version 4.20...
Page 55: Ppi Location
PPI Location A wall or similar flat surface is required, on which to mount the PPI cabinet. The PPI should be positioned according to the Installation Drawing above Gravity Drain Installation Construct the drain from 56mm O/D plastic pipe. The drain should be coupled to the PPI Drain Outlet and should lead to a suitable disposal point.
Page 56: Pressurised Pipeline Interface (Ppi) - S300 Version
Pressurised Pipeline Interface (PPI) - S300 Version Figure 4.L: Installation Drawing, Pressurised Pipeline Interface - S300 Version 4.22...
Page 57: Gravity Drain Installation
Gravity Drain Installation Construct the drain from 56mm O/D plastic pipe. The drain should be coupled to the PPI Drain Outlet and should lead to a suitable disposal point. It may be possible to couple the PPI drain into the Wastewater Drain (if one is fitted), however care must be taken in configuring the drain to avoid any backflushing issues.
Page 58 4.24...
Page 59: Installation
INSTALLATION Aquacell S50 Sampler See page 4.1, Fig. 4.A, Installation Drawing, S50 Sampler. Sampler 1. Drill the 2 mounting holes (using an 8mm masonry drill, if using the fixing bolts supplied) in the wall (or other appropriate vertical surface), and install the masonry bolts (or other appropriate fixings) at the designated points.
Page 60: Sample Collection Vessel (Scv)
Sample Collection Vessel (SCV) 1. Place the SCV (Single Container or Bottler as appropriate) beneath the sampler outlet (Pinch Valve Tube). 2. Place the Pinch Valve Tube in the top opening of the Container / Bottler. The tube should engage the Container / Bottler to a nominal depth of 60mm.
Page 61 Figure 5.A: Wiring Details, Aquacell S50 Sampler...
Page 62: Aquacell S100 Sampler
Aquacell S100 Sampler See page 4.5, Fig. 4.C, Installation Drawing, S100 Sampler. Sampler 1. Drill the 4 mounting holes (using an 8mm masonry drill, if using the fixing bolts supplied) in the wall (or other appropriate vertical surface), and install the masonry bolts (or other appropriate fixings) at the designated points.
Page 63: Electrical Connections To The Sampler Module
60mm. Electrical Connections to the Sampler Module See Figure 5B: Wiring Details, Aquacell S100 Sampler (page 5.6). Electrical connections to the Sampler Module are made principally via the connection panel at the bottom rear of the module.
Page 64 Figure 5.B: Wiring Details, Aquacell S100 Sampler...
Page 65: Aquacell S200 Series Samplers
Aquacell S200 Series Samplers See Fig. 4.E, Installation Drawing, S200 Sampler (page 4.9). Sampler 1. Move the Sampler on its wooden pallet, to a position close to the prepared base. 2. Remove the transit bolts attaching the Sampler to its pallet. 3.
Page 66: Electrical Connections To The Sampler Module
Electrical Connections to the Sampler Module See Fig. 5.C: Wiring Details, Aquacell S200 Sampler (page 5.9). Electrical connections to the Sampler Module are made principally via the connection panel at the bottom rear of the module. Only the (optional) Ancillary Signal Cable needs to be fitted during installation, as the other cable(s) are pre-connected.
Page 67 Figure 5.C: Wiring Details, Aquacell S200 Sampler...
Page 68: Aquacell S300 Series Samplers
Aquacell S300 Series Samplers See Figure: 4.G Installation Diagram S300 Series Sampler (page 4.12) Sampler 1. Move the Sampler on its wooden pallet to a position close to the prepared base 2. Remove the transit bolts attaching the Sampler to its pallet. 3.
Page 69: Integral Bottlers
14. If the SCV is a bottler, connect its cable to the Bottler Connection (the cable suspended from the top of the lower compartment of the Sampler Cabinet) Integral Bottlers Position Bottles/Bottle Carrier on the SCV tray as determined by the plastic location pegs.
Page 70 Figure 5.D: Wiring Details, Aquacell S300 Series Samplers 5.12...
Page 71: Pressurised Pipeline Interface - Standard Version
Pressurised Pipeline Interface - Standard Version See Figure 4.K, Installation Drawing, Pressurised Pipeline Interface - Standard Version (page 4.20). 1. Drill the 4 mounting holes (using an 8mm masonry drill, if using the fixing bolts supplied) in the wall (or other appropriate vertical surface), and install the masonry bolts (or other appropriate fixings) at the designated points.
Page 72: Intake Hose Installation
Intake Hose Installation Non Pressurised Sampling Points The Sampler is supplied with a standard 10 metre (S50 - 5 metre) long Intake Hose, which has an Intake Filter fitted at the Sampling Point End. The hose connects between the Sampling Point and the Sampler Module.
Page 73: S50 Sampler
c. Suspend the Intake Hose in the flow by engaging the Intake Hose Anchor with the Intake Hose Support. d. Run the Intake Hose along its designated path up to the Sampler Intake. e. Attach the upper end of the Intake Hose to the Sample Intake: S50 Sampler Note: Strain relief for the upper end of the Intake Hose is not provided with the S50 and in applications where this is judged to be necessary;...
Page 74: S300 Series Samplers
a. Attach a second Intake Hose Anchor to the upper end of the Intake Hose at a point such that, when it engages with the Strain Relief Bracket, it suspends in its intended manner. b. Suspend the Intake Hose by engaging the Intake Hose Anchor with the Strain Relief Bracket c.
Page 75: Pressurised Sampling Points - Samplers Incorporating The
Pressurised Sampling Points - Samplers incorporating The Pressurised Pipeline Interface (PPI) The Sampler is supplied with 2 intake hoses; a standard 10 Metre length Intake Hose, with a fixing Flange fitted to one end, to connect from the Sampling Point, to the PPI, and a Short Hose to connect from the PPI to the Sampler Module.
Page 76: (Optional) Back-Up Battery Installation
(Optional) Back-up Battery Installation S50 / S200 Samplers Place the battery in the battery cavity at the rear of the Sampler Module and secure it in place with the rubber cord, by stretching it over the battery / battery connecting cable and attaching it to the metal clip at the top of the battery cavity.
Page 77: Operation
OPERATION Definitions The basic Aquacell Air Pump Vacuum AQUACELL SAMPLER Sampler. The Aquacell Sampler combined with the AQUACELL SAMPLER IN PPI MODE Pressurised Pipeline Interface (PPI). The precise position within a sampling SAMPLING POINT location from which samples are taken. The sequence of operations the Sampler SAMPLING CYCLE carries out in order to extract a shot of...
Page 78 Definitions (Continued) DISCRETE SAMPLES Samples are extracted at equal time or flow increments and deposited into a number of seperate vessels in turn. This enables the results of a desired characteristic to be made over time. A Sample is taken for every x litres of FLOW PROPORTIONAL SAMPLING flow passing the Sampling Point.
Page 79: Basic Operations
Basic Operations Controlling the Sampler The Sampler is operated / programmed using the 17 button membrane keypad in conjunction with a 16 x 2 character liquid crystal display. When a button is pushed on the keypad a beep sound will be heard.
Page 80: Switching On The Power
Switching on the Power When the Sampler is powered up, it carries out an initialization sequence which varies according to the Sampler Model. In addition to this, heating / cooling components may start up, dependent on the Sampler Model and the ambient temperature. Sampler Module, Initialization Sequence S50 / S100 / S200 / S310 (Basic Model) Samplers Switch the Sampler's separate Mains Isolator on.
Page 81: Heating / Cooling Component Start
SAMPLER FIRMWARE S3.0.0.1 then PT CTL FIRMWARE P2.0.0.1 (The bottom rows of the 2 displays above, show the current Firmware versions) then, either AQUACELL READY if the Sampler is a basic Aquacell Sampler, or AQUACELL READY ++PPI MODE++ if the Sampler is being used with a Pressurised Pipeline Interface (PPI) to sample from a pressurised Sampling Point.
Page 82: S310H / S320 / S320H Samplers
S310H / S320 / S320H Samplers Switch the Samplers separate Mains Isolator on. The table below shows the heating / cooling components associated with each Sampler model and what to expect, at switch-on. Sampler Models with included Plant Items Indicated Plant Item Location in the Action At...
Page 83: Switching On The (Optional) Back-Up Battery
Plant Item Location in the Action At Sampler Cabinet Switch-on   Fridge In the Plant Zone Starts to run after an initial delay of 3 minutes, provided the ambient temperature is above 3˚C The Plant Zone (PZ) is the space, within the Upper Compartment of the Sampler Cabinet.
Page 84: Basic Aquacell Sampler
Basic Aquacell Sampler 1. The Display shows: SAMPLING NOW CLOSE VALVE 2. Wait for 1 second. 3. The Pump runs and the Pinch Valve closes. 4. Wait for 3 seconds. 5. Air is blown out of the Intake Hose for a short period (PRE PURGE time - factory set to 3 seconds).
Page 85: Aquacell Sampler In Ppi Mode
Aquacell Sampler in PPI mode 1. The Display shows: SAMPLING NOW CLOSE VALVE 2. Wait for 1 second. 3. The PPI pump runs and V2 opens. 4. Wait for 6 seconds. 5. The Sampler Module Pump runs and the Pinch Valve closes. 6.
Page 86: Setting The Purge Times - Basic Aquacell Sampler
19. The Sampler Module Pump runs and a Sample is drawn up the Sampler Module's Intake Hose and fills the Sample Chamber up to the level of the lower tips of the 2 Long Electrodes. The Display shows: SAMPLING NOW INTAKE 20.
Page 87: Setting The Flush Time - Ppi
Post Purge Time The time required, to expel the excess water from the Sample Chamber and in turn, the Intake Hose. This time is factory set to 6 seconds. The POST PURGE time should be long enough to ensure that water is expelled from the Sample Chamber / Intake Hose followed by bubbles being emitted from the end of the Intake Hose for approximately 2 seconds.
Page 88 The time for volume V to be be discharged from the drain is established by taking repeated samples, checking the volume and adjusting the PPI Purge Time accordingly Notes: 1. In applications where the Tapping Point pressure can vary it is important to set the Flush Time, to be sufficient to achieve V, even at the lowest pressure.
Page 89: Removing / Refitting The Sample Chamber
3. The Display should show the Standby Screen as follows: p1.1 PRESSURISED PIPE INTERFACE READY Note: p1.1 on the top line of the Display is the software release number 4. Press button A 5. The Display should show: FLUSH TIME (SV1): 15 seconds PRESSURE PIPE INTERFACE READY...
Page 90 Proceed as follows: 1. Remove the Intake Hose. 2. Release the Retaining Clip at the right side of the Top Clamp. 6.14 3. Hinge open the Top Clamp whilst gripping the Sample Chamber to ensure that it stays in place.
Page 91: Changing The Sample Shot Volume
4. Gripping the Chamber Top Pipe with one hand and the Sample Chamber with the other, carefully release the Sample Chamber / Chamber top assembly from the Top Clamp. 5. Remove the Chamber Top assembly from the Sample Chamber assembly using the Top Pipe as a lever. Carry out the above procedure in reverse order to replace the Sample Chamber.
Page 92: Precision Sample Shot Volumes
Precision Sample Shot Volumes Where a more precisely determined Sample Shot Volume is necessary, the volume can be measured using a suitable measuring cylinder. Samples are deposited into the measuring cylinder and the volume noted. The Volume Control Tube length is progressively adjusted between Samples until the required Sample Shot Volume is achieved.
Page 93: Distributor Pipe Alignment
Having established the need to take Samples at equal Flow Increments, consideration should be given to the actual size of the increment. You should be sure that the Flow Increment is not so big that short-term changes in the constituents of the wastewater are ignored if they occur between Samples.
Page 94: Advanced Operations
In order to observe the Distributor Pipe Outlet alignment and begin the re-alignment procedure if necessary, it is first essential to drive the Bottler Mechanism to its Home position. this is done by temporarily initiating a Sample Program (see below for details) and aborting it after the Bottler Mechanism has Homed.
Page 95: Programming The Sampler
Programming the Sampler Programming should start with the LCD screen on the Sampler Module showing one of the 2 DEFAULT DISPLAYS - Either: AQUACELL READY AQUACELL READY ++PPI MODE++ Before attempting to program the Sampler, please note the following simple rules: 1.
Page 96 The majority of users will only have a very simple application – operating continuously and taking samples at regular intervals, for example. These users will soon find that they are negating most options and so ensuring the absolute simplicity of programming the Sampler.
Page 97: System Settings - General
System Settings - General IDENT DISPLAY SHOWS ACTION / COMMENTS  SYS01 SELECT LANGUAGE Select the language of ENGLISH your choice. [OTHER LANGUAGES] Now see SYS02. This is the date / time SYS02 DATE / TIME 05-07-09 08:30 now. Set the Date / Time taking care to enter 2 digits at each stage.
Page 98: Systems Settings - Sampler
IDENT DISPLAY SHOWS ACTION / COMMENTS SYS04 With Aquacell Stationary ..Continued Wastewater Samplers LOW POWER MODE is an inconvenience with lit Note: LOW POWER MODE can not be used when the Sampler is programmed in FLOW mode. Note: LOW POWER MODE disables the Sampler Warning Output relay.
Page 99 IDENT DISPLAY SHOW ACTION / COMMENTS Note 1: When Multiple-Shot SYSSAM03 ..Continued Sampling is opted for, then every reference to Sample means XX Shots. Note 2: SHOTS / SAMPLE is fixed at 01 for Samplers in PPI Mode Now see SYSSAM04. ...
Page 100 IDENT DISPLAY SHOW ACTION / COMMENTS  When operating in Sampling SYSSAM06 FLOW O/R TIME Mode / Flow, a Flow Override DISABED Time can be set. In this way, (ENABLED) should a flow related Sample not be called for, after the Override Time has elapsed, then a Sample would be taken regardless of flow.
Page 101 IDENT DISPLAY SHOW ACTION / COMMENTS  With SAMPLER ENABLE SYSSAM09 CONTROL MODE SAMPLER ENABLE selected the Sampler will remain dormant during its [PUMP/TIME TRIG] Sampling Period until the External Signal appears (or, if an Initial Delay has been selected [see SYSSAM10 for details], until the External Signal has been present for the period of the Initial Delay).
Page 102 IDENT DISPLAY SHOW ACTION / COMMENTS SYSSAM09 The next Sample will then ..continued be taken at the end of the programmed interval (provided the Pump is running). Provided the Pump operates for some period (longer than the Initial Delay if appropriate) during the interval between Samples, then the Sampler will extract the number of samples...
Page 103 IDENT DISPLAY SHOW ACTION / COMMENTS Set a limit to the number of SYSSAM12 MAXIMUM SAMPLES samples deposited in the Single Container. 0050 Now see SYSSAM13. SYSSAM13 PRE PURGE See Setting the Purge Times 03 SECONDS page 6.10. Set time. Note: PRE PURGE is fixed at 04 SECONDS for Samplers in PPI Mode...
Page 104: System Settings - Bottler
If a Bottler is included then continue as follows: System Settings - Bottler IDENT DISPLAY SHOWS ACTION / COMMENTS This screen appears briefly. SYSBOT01 BOTTLER SETTINGS Now see SYSBOT02  SYSBOT02 BOT LOCATIONS Set according to Bottler format. Now see SYSBOT03. [other bottle location number selections]...
Page 105 IDENT DISPLAY SHOWS ACTION / COMMENTS  SYSBOT05 BOTTLES/GROUP Select the number of Bottles to be addressed [other group sizes] simultaneously This number must be less than or equal to the number of bottle locations. Now see SYSBOT07 or SYSBOT06,. SHOTS / has been set to BOTTLE...
Page 106 IDENT DISPLAY SHOWS ACTION / COMMENTS  SYSBOT08 INCREMENT BY The Bottler can be TIME programmed to move from [SAMPLES] one Bottle to the next (or one Group to the next if Bottler is in GROUP mode) either at regular time intervals or after a fixed number of Samples.
Page 107: Program Settings - Sampler
Having programmed the Sampler’s operating system, the next thing to do is to program the Sampler to carry out the particular duty required, so the PROGRAM SETTINGS must be determined. Now proceed as follows: Program Settings - Sampler IDENT DISPLAY SHOWS ACTION / COMMENTS This screen appears briefly.
Page 108 IDENT DISPLAY SHOWS ACTION / COMMENTS PROGSAM04  If the duration of the Sampling REPEAT DAILY Routine is less than 24 hours it can be repeated daily if [NO] required. Select YES or NO. Now either see PROGSAM4 if SAMPLING MODE, TIME selected, PROGSAM5 if SAMPLING MODE, FLOW / IMPULSE selected, or...
Page 109 IDENT DISPLAY SHOWS ACTION / COMMENTS PROGSAM07 IMPs PER SAMPLE Set number of impulses. 0001 If the Sampler is programmed to operate without a Bottler, see DEFAULT DISPLAY. If the Sampler is programmed to operate with a Bottler and INCREMENT BY / SAMPLES is selected, see PROGBOT02 If the Sampler is programmed to operate with a Bottler and...
Page 110: Special Options
If a Bottler is included then continue as follows: Program Settings - Bottler IDENT DISPLAY SHOWS ACTION / COMMENTS PROGBOT01 BOTTLER SETTINGS This Screen appears briefly. If the Sampler is programmed to operate with a Bottler and INCREMENT BY / SAMPLES is selected, see PROGBOT02 If the Sampler is programmed to operate with a Bottler and...
Page 111: Special Options Indication
IDENT DISPLAY SHOWS ACTION / COMMENTS  SPECOP1 Select YES to see options SPECIAL OPTIONS available or EXIT to return to DEFAULT DISPLAY. [EXIT] If YES see SPECOP 02 If EXIT see DEFAULT DISPLAY  SPECOP2 The Sampler can be made AUTO RESTART to automatically restart its program after a power...
Page 112: Running The Program
Running the Program Press the RUN PROG Button. First the Sampler’s Data Logger will be wiped clean and then the Sample Shot Counter will be reset to zero. The selected PROGRAM will then be executed. The Bottler (if fitted) will first move to the Bottle 1 Position and the Display will show: TESTING BOTTLER PLEASE WAIT The Display will then cycle continuously through the “Program...
Page 113: Taking Spot Samples During A Sampling Program
When the Program has completed the Display will usually show: PROGRAM COMPLETE Note When has been selected and the PROGRAM OVERFILL PROTECTION has been terminated by the chosen limit having been reached, then the Display will show: MAXIMUM SAMPLES REACHED Taking Spot Samples During a Sampling Program Often a Spot Sample is required at a particular time as witness to a particular Flow Event for example, and this is easy to do even when...
Page 114: Bottlers
Bottlers Detachable Bottlers All Aquamatic Detachable Bottlers comprise a Distributor Unit characterised by its transparent Distributor Dome, a Distributor Pipe and a Bottle Carrier. It is most important when locating the Distributor unit on the Bottle Carrier that the Polarising Slot in the Distributor...
Page 115 SAMPLING MODE TIME BOTTLE LOCATIONS RECYCLE BOTTLER MODE SINGLE INCREMENT BY TIME SAMPLE INTERVAL 01HOURS 00MINS TIME PER BOTTLE 24HOURS 00MINS 6.39...
Page 116: Leaving The Sampler To Operate Automatically
Leaving the Sampler to Operate Automatically • Ensure that the Sample Collection Vessel(s) is (are) clean and dry. • Locate the Sample Collection Vessel taking care to ensure that the Samplers Pinch Valve Tube (the Sample Discharge Point) is properly located in the Collection Vessel point of entry. • Switch on the power.
Page 117: Data Logging / Communication Facilities
Data Logging / Communication Facilities It is often useful to take a retrospective look at the Samplers behaviour, after a period of operation. All Aquacell Samplers have on-board Logging Facilities. Logged data is divided between Sampling / Warning Events and (optional) Sample Temperature Readings.
Page 118: Sampling Events
Sample Temperature readings are logged at intervals of 5 minutes, starting, during a Sample Program, after the first Sample is taken, and finishing when the STOP button is pressed (or the logger reaches its capacity). The entire logger is cleared when the RUN PROG button is pressed, to initiate a Sample Program.
Page 119 IDENT DISPLAY EVENT SAMPLER’S SHOWS SHORT RESPONSE / FORM NOTES SE05 INC BOTTLER The Bottler The Display BOTTLER Distributor shows Arm is BOTTLER moving whilst the bottler to its next is incrementing programmed and then returns position. to the status it was in prior to the BOTTLER...
Page 120 6.44...
Page 121 6.45...
Page 122 6.46...
Page 123 6.47...
Page 124 6.48...
Page 125 6.49...
Page 126: Warning Event Occurances, Out Of The Event Logging Phase
Warning Event occurances, out of the Event Logging Phase 1. The Display reverts to the read-out, appropriate to the Warning Event as shown in the table above, for 4 seconds, and then returns to the Default Display 2. The (Optional) Sampler Warning Output is activated for 4 seconds, and then is de-activated 3.
Page 127: Warning Event Occurances Whilst A Spot Sample Is Being Taken, During The Event Logging Phase
Pressing the VIEW Button takes the Sampler out of the Warning Status: 1. The Display returns to it's status before the Warning Event occurred 2. The (Optional) Sampler Warning Output is de-activated. 3. The (Optional) Beacon (Red Segment) stops flashing. When a Warning Event has occured during a Sample Program and has been acknowledged by pressing the VIEW Button, the (Optional) Beacon (Red Segment) will STOP flashing.
Page 128 Select PROG SETTINGS, SHOT PROGRESS, SAMPLE TEMP (Note: This menu choice is only available if the Sampler is fitted with the Sample Temperature Monitoring Facility – Stationary, and the facility is enabled [See SYS4]), WARNING LOG or SAMP/WARNING LOG as required and press the  button. Now observe the following Displays: If VIEW / PROG SETTINGS is selected- The Display will cycle, showing in turn - Start and Stop times,...
Page 129 If VIEW / SAMPLE TEMP is selected- The Display will cycle, showing in turn - Maximum Sample Temperature, Minimum Sample Temperature, Mean Sample Temperature and Present Sample Temperature and then return to the status it was in, prior to the VIEW button being pressed. For example: MAX SAMPLE TEMP = 4.5˚C...
Page 130: Escaping From The View Status
Holding the Button pressed, instead of repeatedly pushing it, will cause the log to step once per second for the first 5 seconds. Holding the Button down for longer than 5 seconds will cause the Log step rate to increase to 10 per second. button can be used in the same way as the button but to step backwards through the log.
Page 131: Downloading The Samplers Event And Sample Temperature Logs To A Computer
• Pressing the STOP Button twice causes the Sampler to escape both the VIEW status and the Warning Status. It also aborts the Sample Program. The Display returns to the DEFAULT DISPLAY Downloading the Samplers Event and Sample Temperature logs to a Computer (Only applies to Samplers supplied with the Data Connection) The following assumes that the computer is programmed with, either Microsoft...
Page 132: Stage 2
• Click "Finish" when conformation of the installation is shown Stage 2 • The "New Hardware Found" balloon message will pop up in the Tool Tray • The "Found New Hardware Wizard" window will open • Click the "Yes this time only" radio button • Click "Next"...
Page 133: Starting A Hyperterminal Download Session
• The “COM Port Properties” window opens. • Set “Port Settings” using the drop-down menus as follows: Bits per second 19200 Data bits Parity None Flow control None Stop bits • Press OK. The connection is made and the “Connected” time is displayed at the bottom left of the Hyper Terminal window Finally amend the ASCII Setup: • Go to the “ASCII Setup”...
Page 134: Giving The Sampler A Name
• The “Open” window opens, with the previously configured connection file • Double click the file to open the connection. (Remember that the sampler must be connected to the same port that it was connected to, when the connection was configured). • The “Aquacell (or your chosen name) Hyper Terminal”...
Page 135: Downloading The Event Log
Note For subsequent downloads, the selected file string should already be present in the aperture in the “Capture Text” window. If this is the case, just Click “Start” Downloading the Event Log • Type “*e”, and then press Carriage Return. • If the logger contains 150 or more Event logs, The Hyper Terminal window on the computer screen shows (example variables are given):...
Page 136: Downloading The Sample Temperature Log
• The Samplers LCD shows: DOWNLOADING When the download is complete, the screen returns to the Default Display. • The Samplers LCD returns to the Default Display Downloading the Sample Temperature Log • Type “*t”, and then press Carriage Return. • The Hyper Terminal window on the computer screen shows (example variables are given): Unit = Sampler 123...
Page 137 • If Format 1 (the Spread Sheet format) is selected,and the logger contains 150 or more Temperature logs The Hyper Terminal window on the computer screen shows (example variables are given): Spread Sheet format selected... Approximate download time = t1 – t2 secs (or mins as appropriate Press the ‘1’...
Page 138: Closing Down
• If the 1 button on the Sampler is pressed, in the case of either Format 1 or Format 2, the Samplers LCD shows: DOWNLOADING When the download is complete, the screen returns to the Default Display. • If the 2 button on the Sampler is pressed, in the case of either Format 1 or Format 2, the download is abandoned and the Samplers LCD returns to the Default Display.
Page 139: A Few Simple Do's And Don'ts When Operating Your Sampler
A Few simple DO’S and DON’TS when operating your Sampler Do's 1. Do ensure that the plastic surface inside the chamber top, particularly between the electrodes, is kept clean and free from wastewater contamination. 2. Do ensure intake filter is correctly suspended in the water. 3.
Page 140 2. Don't allow the Sampler to cycle more frequently than necessary, particularly at high lifts and / or at high ambient temperature, and don’t set unnecessarily long purge times as this will impose unnecessary wear on the pump. 3. Don’t allow wastewater to splash the inside of the Sample Chamber top as this will cause the inside of the Chamber Top to build up a layer of wastewater residues.
Page 141: Maintenance
Sampler program will be confirmed as being suitable for your requirements. Please contact Aquamatic or your local distributor, for more details of this service. User Maintenance In addition to the above there is the need for routine user maintenance.
Page 142: Cleaning The Sample Tract
S300 Samplers will enable you to decide how frequently the sample tract needs to be cleaned in order to ensure that reliable and representative samples are always available. Caution - use only genuine Aquamatic parts, otherwise serious damage may result.
Page 143: Intake Hose Assembly
The parts of the sample tract which must be kept clean are as follows: Intake Hose Assembly Loosen the hose clamp to remove. Either flush out with clean water or replace. Sample Chamber / Chamber Top Remove the Sample Chamber assembly. (See Removing / Refitting the Sample Chamber, page 6.13) Clean the Sample Chamber with a cleaning sponge using a detergent solution followed by a clean water rinse.
Page 144: Sample Collection Vessel
It is important when cleaning the Sample Chamber top to ensure that the inside surface, particularly between the electrode pins is kept free of wastewater contamination. Wastewater deposits can, when combined with condensation, (which often forms on the inside of the chamber top) form a conductive layer between the electrode pins which may lead to the occurrence of PROBE SHORT CCT and GUARD PROBE HIT faults.
Page 145: Test Mode
It is recommended that as soon as the bottom circle starts to change colour, the Desiccant Bag be changed. The interval between Desiccant Bag changes is generally several months dependent on Humidity Indicator Desiccant Bag Access Plug the ambient conditions, to which the Sampler is exposed. To change the Desiccant Bag, proceed as follows: • Remove the Sample Chamber assembly.
Page 146 4. Verifies the responses of ancillary equipment to signals fed from the Sampler’s outputs. 5. Carries out calibration of the Sampler’s temperature probe (provided that a comparative standard is available). To enter the test mode, press and hold “STOP” button for about 7 seconds.
Page 147 DISPLAY SHOWS COMMENTS Press the  button to check the power supply  test supply under load. 12.18 [test finished] The reading should be in the range 11.00 to 12.25. Note: This is not a voltage reading. Press the  button to check valves 1 to ...
Page 148: Breakdown Service
User Guide, the following procedure should be followed: Report the failure to Aquamatic, or it’s approved Distributor. Often a telephone call is enough to resolve a perceived problem. When a problem cannot be resolved over the telephone then there...
Page 149: Back To Base Service
Back to Base Service Return the faulty item to Aquamatic, or it’s approved Distributor, for repairs to be carried out in the workshop. Proceed as follows: Sampler Module • Remove Sampler Module from its location and remove the battery (if fitted).
Page 150: Trouble Shooting
Trouble Shooting If your Sampler is not operating correctly check the fault symptoms against the following list. If you are unable to remedy the problem then refer to Aquamatic Ltd or your local dealer. See Breakdown Service above. FAULT SYMPTOM...
Page 151 FAULT SYMPTOM FAULT ACTION Samples not being kept Vent(s) blocked Clean Vents (See page at 5 7.1) Lower Compartment Close Door (or if the Door not fully closed door has become missaligned, or the Door Seal damaged, request On-Site service) Condensate Drain Unblock Drain (See blocked...
Page 152 IDENT EVENT LOG SHORT NOTES ACTION FORM If the light is ..Cont. on, request On-Site Service. If the light is not on, carry out actions 1) and 2), above. If the problem is still not resolved, Check the Display on the Millennium Controller within the PPI...
Page 153 IDENT EVENT LOG SHORT NOTES ACTION FORM Modify the ..Cont installation to avoid splashing. (See Intake Hose Installation, page 5.14). A Sample Fit the Sample ELECTRODE OPEN CCT OPEN Chamber Chamber. CIRCUIT Electrode Clean the / Contact tops of the Spring, failed electrodes to connect,...
Page 154 IDENT EVENT LOG SHORT NOTES ACTION FORM MAXIMUM The sample No action SAMPLES SAMPS count needed. REACHED reached that which had been programmed as a maximum permitted (to avoid the Sample Collection vessel overflowing). FAULT- BOT FITD With the Either BOTTLER Sampler reprogram or...
Page 155 IDENT EVENT LOG SHORT NOTES ACTION FORM SAMPLE ST SNSR X With the Samplers TEMP Sampler other than SENSOR programmed S300 Series: to measure / FAULT log Sample Ensure the Temperature, Sample the Sample Temperature Temperature Sensor Sensor Connector, is was either fully engaged.
Page 156 IDENT EVENT LOG SHORT NOTES ACTION FORM WE12 EPT SNSR X The Request EVAP PLATE TEMP Evaporator On-Site Plate Service. SENSOR FAULT Temperature Sensor was either missing or faulty WE13 Close the door DEFROST DFRST T/ TIME OUT evaporator of the Lower plate failed Compartment.
Page 157 IDENT EVENT LOG SHORT NOTES ACTION FORM WE15 No action CONTAINER CZ TEMP IN ZONE TEMP Container needed. Zone IN RANGE temperature was within the 0 -5˚C window permitted (or above 0˚C in the case of S310H) WE16 SUPPLY LOW VOLTS The supply Restore the VOLTAGE voltage fell supply voltage...
Page 158 7.18...
Page 159: Technical Specifications
TECHNICAL SPECIFICATIONS Aquacell Sampler Module Media/Source Wastewater from a non-pressurised suitability sampling point Sample extraction Air pump vacuum system method Time – Sampling frequency from 1 min to Operating Modes 99 hrs 59 mins Flow – 4-20mA or pulsed volt-free contact closure Event –...
Page 162: Materials Of Construction
Sample shot cycle 30 seconds (approximately) with 4 metres time lift 60˚C Maximum sample media temperature Materials of construction Sealed polyurethane moulded construction Main Enclosure with stainless steel fittings. Acrylic or Glass (optional) Sample Chamber Sample Chamber Top Standard - Polypropylene / Stainless Steel / Silicone Rubber Optional –...
Page 163: Usb Connection
Pulsed flow input Accepts normally open volt free contact closure Accepts normally open volt free contact Remote control input closure - Event controlled by signal from an external device such as a pump or pH Meter etc... Sample acquired output Provides a contact closure each time a sample enters the Sampler Chamber.
Page 164 Minimum Sampling Sufficient to generate a 0.5 metre / second point pressure flow in the Intake Hose Maximum Sampling point pressure (bar) Maximum intake hose length (metre) Height 1100 Size (mm) / Weight (kg) of the PPI Width 520 Enclosure Depth 250 Note: the PPI, S300 Weight 18.0...
Page 165: Aquacell Wastewater Sampler Model Range
Aquacell Wastewater Sampler Model Range Notes 1. None of the Aquacell models are suitable for use in Classified Hazardous Areas 2. All of the Aquacell models incorporate the Aquacell Sampler Module 3. S300 Series Sampler Models - Cabinet panels have been subjected to extensive salt spray testing (in line with BS 3900 part F12 (also known as ASTM B117 and DIN 52-021)).
Page 166 S320H S320 S310H S310 S200 S100...
Page 167 S320H S320 S310H S310 S200 S100...
Page 168 S320H S320 S310H S310 S200 S100 8.10...
Page 169 S320H S320 S310H S310 S200 S100 8.11...
Page 170 Established in 1991, Aquamatic Limited is a leading manufacturer of automatic Wastewater Sampling Equipment, based in Manchester, United Kingdom. The company and its product range benefit from over 50 years experience in the wastewater sampling industry. From the outset the Aquamatic philosophy has been to focus strictly on the design and manufacture of uncomplicated, robust and reliable wastewater sampling equipment.

This manual is also suitable for:

Aquacell s310 Aquacell s300 series Aquacell s50 Aquacell s200 Aquacell s320 Aquacell s320h ... Show all

Aquamatic Aquacell S100 User Manual

Quick Links

Need help?

Questions and answers

Related Manuals for Aquamatic Aquacell S100

Summary of Contents for Aquamatic Aquacell S100

This manual is also suitable for:

Table of Contents