Armstrong Design Envelope 9521 Integrated Plant Control System (IPC 9521)
- Applications-Automated chiller plant control for optimizing variable primary flow water-cooled chiller plants. The 9521 IPC works in a variable primary configuration and keeps the entire plant including water-cooled chillers, cooling towers, chilled water and condenser pumps running smoothly.
- Description-The Armstrong Integrated Water-Cooled Chiller Plant Control System (IPC) boosts energy efficiencies of new and existing chiller plant installations to leading class levels. The IPC 9521 works with all variable primary configurations, keeping the entire plant – including water-cooled chillers, cooling towers, chilled water and condenser pumps – running at optimum performance and occupant comfort.
- Configuration-Integrates with all brands of chillers, pumps, and automation systems. Installs directly with chiller plant equipment. If preferred, the IPC connects seamlessly with any central building automation system (BAS) maintaining full control of the chilled water plant through the BAS
- Performance range-Controls up to five chillers, five cooling towers and five pumps. No limitations in plant size and cooling capacity.
- Power Range-No limitations in plant cooling capacity
Description
Benefits & Features
Lowest installed cost
- Pre-programmed, field-adjustable unit for fast and easy installation directly to chiller plant equipment.
- Software-based commissioning.
- Superior energy performance qualifies for cost recovery under utility and government rebate programs.
Lowest Operating Cost
- Optimum plant control for up to 50% higher energy efficiency over same age, constant speed chilled water plant.
- More effective and gentle equipment operation for up to 10% in extended equipment life and reduced maintenance expenditures.
- Optional ECO*PulseTM HVAC health management (including predictive maintenance) for reduced plant failure and downtime.
- Intuitive user interface for expedient operator training and simplified, safer plant operation.
- Remote access through internet connectivity for easy troubleshooting and swift software upgrades with uninterrupted plant operation
Lowest environmental cost
- Optimum plant control for up to 50% higher energy efficiency over same age, constant speed chilled water plant.
- Optimum plant performance for up to 50% lower carbon (greenhouse gas) emissions (avoided electricity generation)
Lowest project and operating risks
- Intuitive user interface for safer plant operation.
- Remote access through internet connectivity for easy troubleshooting and swift software upgrades with uninterrupted plant operation.
- Field-adjustable for easy on-site modifications to system requirements.
- Single-source responsibility for convenient project and product support
Related products
Armstrong 4280 Motor Mounted Pumps
- Applications-HVAC-system pumping; light industrial / process pumping.
- Description-The Armstrong 4280 horizontal end-suction pumps are equipped with close-coupled motors to minimize footprint requirements.
- Materials(MOC)-Cast iron, ductile iron, or bronze casing, Cast iron or bronze impeller.
- Configuration-Inside single-spring mechanical seal
- Performance range-Up to 2,000 USgpm (125 L/s) flow; up to 400 f (120 m)
- Temperature-250°F (121°C)
- Power Range-0.33 hp to 60 hp (0.25 kW to 45 kW)
- Size-1" to 6” (25 mm to 150 mm)
Armstrong Design Envelope 6800 Vertical Multistage Boosters
- Applications-New and retrofit water boosting installations in mid to large size residential, commercial, or industrial settings (such as apartment buildings, office towers, hospitals, hotels, schools, water treatment plants, factories, etc.)
- Description-The Armstrong Design Envelope 6800 Boosters are fully assembled, programmed, integrated and factory-tested turn-key booster systems. They are equipped with vertical multistage pumps and come in arrangements of 2 to 5 pumps. The integrated controls allow for superior performance and energy efficiency across broad operating envelopes. Most suitable for applications where energy consumption and low maintenance are critical, installation space comes at a premium, and occupant comfort is a high priority.
- Materials (MOC)-Piping: stainless steel 304
- Configuration-The 6800 Booster range offers enhanced features, such as improved touchscreens, more performance envelopes, an easy-to-use selection software, and onboard energy and flow readings both present and historic. For the full improved feature set please refer to the Solution Outline for this product.
- Performance range-Up to 2000 USgpm (450 m3/hr) flow; up to 370 psi (22 bar) pressure
- Power Range-Up to 250 hp (up to 185 kW)
Armstrong Design Envelope Chilled-Water Integrated Plant Package
- Applications-Commercial and industrial chilled-water cooling systems.
- Description-The Armstrong Chilled-Water Integrated Plant Package combines all the equipment needed to deliver chilled water to medium to large size buildings at superior energy efficiency. The factory-assembled plant includes pumps, integrated controls, water-cooled chillers and the requisite instrumentation, valves and sensors. IPP complies with all ASHRAE 189.1 requirements and exceeds ASHRAE 90.1.
- Configuration-Variable primary with variable condenser flow. Catalogue-based pre-engineered solutions or designed to customer specification. BMS communications protocol available
Armstrong Design Envelope Intelligent Fluid Management System
- Applications-Commercial or industrial closed-loop systems, including HVAC chilled-water systems, boiler systems, cooling tower systems, or process water loops.
- Description-The Armstrong Intelligent Fluid Management System (iFMS) integrates superior pump- and control technology into a single pumping solution yielding both compact and carefree installation as well as superior energy performance. iFMS is ideally suited for partial or all variable speed chilled-water plant applications (variable primary flow, variable secondary flow, variable condenser water flow). In combination with Parallel Sensorless control iFMS saves 30% or more in energy over any other parallel pumping configuration available today.
- Configuration-Up to 4 pumps in one unit. Catalogue-based pre-engineered solutions or designed to customer specification. Integrated control system (IPS 4000, IPC 11550) or connecting to chiller plant/BMS control. Optional single point power panel
Armstrong Expansion Tanks
- Applications-Pressure stabilization in water based mechanical systems such as booster installations, boiler systems, and chiller plants
- Description-Armstrong Expansion Tanks are designed to reduce tank sizes by up to 80% over standard designs. Expansion tanks use compressed air to maintain system pressures by accepting and expelling the changing volume of water as it heats and cools. Diaphragm or bladder tank designs isolate the expanded water from the pressure controlling air cushion – which is pre-charged at the factory and can be adjusted in the field to meet final system requirements
- Materials (MOC)-Carbon steel (shell), heavy duty Butyl (diaphragm)
- Performance range-AET plain steel expansion tanks: 15 to 525 USgpm flow. AX diaphragm expansion tanks: 8 to 211 USgpm flow. Type L bladder type expansion tanks: 10 to 1056 USgpm flow.
Armstrong Suction Guides
- Applications-HVAC-system pumping; general purpose pumping; industrial/process pumping (water or glycol based).
- Description-The Armstrong Suction Guides (SG) are multi-function pump fittings that provide a 90° elbow, guide vanes, and an in-line strainer. Suction guides reduce pump installation cost and floor space requirements.
- Materials (MOC)-Cast Iron, ductile iron; grooved, flanged or threaded connections
- Performance range-Suitable for all Armstrong commercial pumps and pumping systems
- Temperature-230°F (110°C)
- Size-1.5” to 20” (40 mm to 500 mm)
Full View Sight Glass (PN10)
Applications:
Industrial facilities, oil refineries, bath soap manufacturing plane, gas industries, petrochemical complex, high viscous process media, building construction, environmental water treatments, synthetics, plastic and resin industries, polymer manufacturing plant, food industries (chocolate, sauce etc.), fertilizer industries etc.Technical Data :
| Design Std. | As per BS 5352 |
| Testing Std. | As per API 598 |
| End Connection | As per ANSI B16.5 |
| Size | ½” to 4” (15 mm to100 mm) |
| Pressure rating | PN10 |
| Maximum working pressure | 10 Kg/cm2 |
| Test pressure | 15 Kg/cm2 |
Dimensions
| Size | A | B | C |
| 15 | 153 | 51 | 137 |
| 20 | 153 | 51 | 137 |
| 25 | 153 | 51 | 137 |
| 40 | 178 | 64 | 146 |
| 50 | 190 | 76 | 190 |
| 75 | 229 | 102 | 132 |
| 100 | 299 | 127 | 283 |
All dimensions are in mm.
POT-BASKET TYPE STRAINER (ANSI 150#, 300#)
Applications:
Strainer can be used in liquid as well as gas line, Regulator and valve protection, steam traps protections, flow meter and pump protections, heat exchanger and refrigeration set protection, Suitable for Hazardous environments. Y-Strainers and pot basket type strainers is a device for mechanically removing unwanted solids from liquid, gas or steam lines by means of a perforated or wire mesh straining element. Where the amount of material to be removed from the flow is relatively small, resulting in long intervals between screen cleanings, the strainer screen is manually cleaned by shutting down the line and removing the strainer cap.Technical Data :
| Design Std. | As per ASME B16.34 |
| Testing Std. | As per API 598 |
| End Connection | Flanged Drill as per ANSI B16.5 |
| Material | Body : IS 2062, Seal : NBR / PTFE / Graphite + SS, Mesh : SS |
| Shell Wall Thickness | As per ANSI B16.34 |
| Size | 2" to 18", Class 150, 300 |
Dimensions 150#
| Size | F/F | A | B |
| 50 | 320 | 190 | 285 |
| 80 | 360 | 200 | 320 |
| 100 | 400 | 210 | 360 |
| 125 | 460 | 230 | 430 |
| 150 | 510 | 240 | 430 |
| 200 | 560 | 280 | 530 |
| 250 | 810 | 420 | 635 |
| 300 | 890 | 430 | 715 |
Dimensions 300#
| Size | F/F | A | B |
| 50 | 380 | 200 | 305 |
| 80 | 420 | 235 | 400 |
| 100 | 475 | 260 | 405 |
| 125 | 510 | 275 | 435 |
| 150 | 620 | 295 | 490 |
| 200 | 630 | 345 | 560 |
| 250 | 900 | 390 | 690 |
| 300 | 1000 | 440 | 770 |
All dimensions are in mm.
