Armstrong Design Envelope Integrated Pumping System (IPS 4000)
- Applications-Multi-pump control for heated – or chilled – water system optimization in buildings.
- Description-The Design Envelope Integrated Pumping System (IPS 4000) is an advanced multi-zone control that directly integrates with pumping units to optimize energy performance, system handling, and installation.
- Materials (MOC)-Enclosure, circuitry, software
- Configuration-Integrates seamlessly with Armstrong Design Envelope pumps in a headered configuration.
- Performance range-Up to 8 pumps, 16 zones (variable primary, secondary or tertiary) and 8 flow sensitive equipment (variable primary)
IPS 4001w / IPS 4501w for up to 3 pumps, 3 zones and 3 flow sensitive equipment
IPS 4002w / IPS 4502w for up to 4 pumps, 6 zones and 4 flow sensitive equipment
IPS 4003w / IPS 4503w for up to 6 pumps, 12 zones and 6 flow sensitive equipment
IPS 4004w / IPS 4504w for up to 8 pumps, 16 zones and 8 flow sensitive equipment - Power Range-No limitations in system size and capacity.
- Size-No limitations in system size.
Description
Benefits & Features
Design Envelope Integrated Pumping System (IPS 4000)
- The Integrated Pumping System (IPS 4000) offers low risk, fast and simple setup for the most cost effective and efficient results:
- Compatible with existing building automation system
- Pre-programmed for easy installation and set-up
- Controls up to 8 pumps and 16 zones
- Sensorless technology reduces building operating and maintenance costs
Lowest installed cost
- Onboard Sensorless technology for eliminating the need of external sensors and related installation costs.
- Compatibility with existing building automation systems for easy installing and setup.
- Intuitive software-based setup for easy commissioning.
Lowest operating cost
- Advanced control sequences and zone control for harnessing energy and cost performance benefits inherent in variable speed pumping systems.
- High-quality dependable logic components for carefree long-term performance.
Lowest energy consumption and carbon emissions
- Advanced control sequences and zone control for harnessing energy performance benefits inherent in variable speed pumping systems. Exceeds energy savings requirements prescribed in ASHRAE 90.1
Lowest project and operating risk
- Compatibility with existing building automation systems for easy installing and setup.
- High-quality dependable logic components for carefree long-term performance.
Related products
Armstrong 4030 End Suctionbase Mounted Pumps
- Applications — HVAC-system pumping; light industrial/ process pumping
- Description — The Armstrong 4030 horizontal end-suction (ES) pumps are engineered to substantially reduce cost over competitor designs across installation, operation, and lifetime maintenance. High-efficiency NEMA-premium motors ensure low energy consumption and cost.
- Materials (MOC) — Cast iron, ductile iron, or bronze casing, Cast iron or bronze impeller
- Configuration Inside — single spring mechanical seal.
- Performance range — Up to 5,000 USgpm (315 L/s) flow; up to 600 ft (180 m) head
- Temperature — 250°F (121°C)
- Power Range — 0.33 hp to 300 hp (0.25 kW to 200 kW)
- Size — 1" to 8” (25 mm to 200 mm)
Armstrong Air & Dirt Separators
- Applications-Dirt and air removal from hydronic and HVAC systems.
- Description-The Armstrong dirt & air separators (DAS) are designed to eliminate trapped air and suspended dirt particles associated with the start-up and maintenance of hydronic and HVAC systems.
- Materials (MOC)-Carbon steel (shell), stainless steel (coalescing medium), styrene butadiene rubber (gasket)
Armstrong Design Envelope 4300 Pumps
- Applications-HVAC-system pumping and control; general purpose pumping; industrial/process pumping and control. (water or glycol based)
- Description-Pipe-mounted UL 778 pumping unit with integrated intelligent controls for space-saving installation and superior energy performance. Saves up to 75% in energy over comparable traditional constant speed or variable frequency operated pump installations. Remote services through internet to enhance reliability and sustain optimal performance over life of pumps.
- Materials(MOC)-Ductile iron e-coated casing, Stainless steel impeller, Sintered silicon carbide mechanical seal
- Configuration-On-board Intelligent Variable Speed controls with Sensorless control. Split-coupling design and outside balanced or inside single spring mechanical seal. Controls enclosure UL type 12 or UL type 4X for outdoor applications. 0.33-50hp range standard with DEPM motors that reduce losses by more than 20% over NEMA Premium efficiency. Network capable for remote performance management services.
- Performance range-25 to 25,000 USgpm (1.5 to 1500 L/s) flow; 10 to 300 ft (3 to 90 m) head (composite curves available)
- Temperature-300oF (150oC)
- Power Range-0.33 hp to 1250 hp (0.25 kW to 900 kW)
- Size-1″ to 20″ (25 mm to 500 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 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 Firepak Vertical In-line
- Applications-Fire-protection of buildings and other built infrastructure.
- Description-The Armstrong Vertical In-line (VIL) FirePak line features the full range of VIL fire pumps with electric motor and controller. All mounted, piped, and wired on a base at the factory. The complete package is designed to fit through a standard door.
- Materials (MOC)-Metal base, piping, pump, and control panel; switchgear; electric motor.
- Configuration-Options available include jockey pump and jockey pump controller. 50 Hz and 60 Hz designs. UL, ULC, and/or FM certification
- Performance range-50 – 1500 USgpm
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)
Y-Type Strainers (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 End as per ANSI B16.5, F to F as per ANSI B16.10 |
| Shell Wall Thickness | As per ANSI B16.34 |
| Size 150# & 300# | 50 mm to 300 mm (2” to 12”) |
| Standard Trims | WCB / CF8M, Mesh : SS |
Dimensions 150#
| Size | ~L | ~H |
| 50 | 225 | 190 |
| 80 | 315 | 270 |
| 100 | 370 | 305 |
| 150 | 470 | 400 |
| 200 | 600 | 490 |
| 250 | 695 | 670 |
| 300 | 810 | 800 |
Dimensions 300#
| Size | ~L | ~H |
| 50 | 270 | 190 |
| 80 | 320 | 270 |
| 100 | 355 | 305 |
| 150 | 450 | 400 |
| 200 | 560 | 490 |
| 250 | 730 | 670 |
| 300 | 850 | 800 |
All dimensions are in mm.
