Wireless Water Monitoring System

WIRELESS Water Monitoring System
Wide Network Provide Prompt Service
Extensive Application Engineering Knowledge
Indigenously developed Products of International Quality
Extensive Project Experience
100% Project Procurement , assure you Guaranteed Savings
Praveen Sharma (Business Consultant - High Energy Segment)

INDEX
• Introduction of Wireless
• Conventional Monitoring
• Why We Need Wireless?
• Architecture of Wireless System:
a) For Flow Measurement.
b) For Tank Level Measurement.
• Application of Wireless System.
a) For Oil & Gas Industries
b) For Process Industries
c) For Utilities & Municipal
• Wireless Best Fit.
• Products Overviews
• Wireless Communication Devices.
• Wireless Modem Functionality.
• Key Features of Wireless System.
• Advantages

Introduction to Wireless
• What is industrial wireless?
• Transmitting information via Radios.
• Transmitters
• Receivers
• Gateways
• Monitoring solution
• Tank levels monitors
• Motor operated valves
• Pumps
• Water flow Monitoring
• No need for wires or cable
• Radios are programmable
• Multiple radios on a reliable path
• To send data upon
• Request
• Periodically
• Pre-determined signal values

Introduction to Wireless
• Conventional Monitoring Conditions
• Long conduit runs between sensors and control room
• Cost of materials for long run conduit or cable.
• Lack of resources to do maintenance

Why We Need Wireless ?
• Why go wireless?
• Cost effective solution
• Avoiding long wire or conduit runs
• Eliminating trenching and cable trays
• Facilitating solutions for applications hindered by physical obstruction
• Added value
• Increased operational safety by continuous monitoring.
• Mobile and flexible monitoring.
• Easy to upgrade as you grow.
• Low cost per access point.
• Easy to install.

Architecture of Wireless System
Data at Individual
Plant
Requirements
• Static IP
• Internet
connection
Cloud /
Internet
M2M with GPRS Modem M2M with GPRS Modem
M2M with GPRS Modem

Water Tank Level Measurement
Remote Tank Level Monitoring

Application:-
• Applications considerations
• Very Important for Energy Conservation.
• Monitoring of Intake Water from Government.
• Monitoring of Level of Reserve Tanks, so that we
can control On/Off of heavy duty motors.
• Monitoring of complete Intake & Consumed Water at
Departmental / Section wise through complete
mapping of flow. So that we can analyses our
requirement & Scope of water conservation
departmental wise.

Applications:-
• Applications considerations
• Control
• Requirements
• Process control
• Automated and manual process control for various
industries
• Alarms
• Monitor conditions and automate alarms when needed

• Application: Oil & Gas
• Well-head and pump monitoring system.
• Pipeline pressure, flow and valve
monitoring.
• Protection system monitoring.
• Leak detection monitoring.
• Underground gas storage monitoring.
• Pump/compressor station control systems.
Application For Oil & Gas Industry

Application for Process Industries
 Application: Process Industries
Eg:- Cement plants, Pulp & paper, steel mills,
power gen, glass manufacturing
 Flow monitoring.
 Tank level monitoring.
 Condition monitoring of equipment
 Utility plant alarms.
 Effluent treatment plants.
 Security and access-control of Water.
 Remote water pumps.
 Mapping of complete Water Flow In/Out
even in remote location.
 Can Analysis Scope of Water Conservation.

Application for Utilities & Municipal
 Application: Utilities & Municipal
 Water management
Pump station control
Tank monitoring, level and security
Flow metering systems
Irrigation monitoring and control
Water quality monitoring
Large network SCADA systems
Treatment plant monitoring
Early flood-warning systems

Wireless best fit when…
• Manually collected data: Wireless can eliminate the need to send
technicians into the field to read gauges.
• "Must have" measurements: Environmental or safety regulations may
require additional measurements. Wireless allows the easy placement of
instruments where needed.
• Need for diagnostics: Many plants have hundreds of field devices.
Wireless allows access to diagnostic information in certain of these
areas.
• Temporary Monitoring: process may only need a short ( 1-3 months )
monitoring. Wireless allows easy, fast, and inexpensive install for these
requirements
• “Want to have" measurements: Wireless permits adding instruments in
locations that could not previously be justified.
• Long distances involved: Wireless can eliminate the need for long cable
runs and trenching to connect tank farms and similar assets spread over
a wide area.

Wireless best fit when…
• Many pumps and motors: Plants often have hundreds of pumps and
motors. And while continuous condition monitoring is noble in concept,
wiring vibration sensors to all of them would be prohibitive. Wireless
allows an easy connection.
• Extreme environments: Hot, dangerous and/or hazardous environments
make it difficult to install instruments and run wire. Wireless minimizes
the problem.
• Crowded environments: Wireless eliminates the need to snake new wires
through crowded enclosures and conduit.
• New wiring is too expensive: Installed costs of $50 to $100 per foot can
make adding new wired measurement points cost-prohibitive.
• Need for feedback: Manual valves that have no position feedback can
cause safety problems. Wirelessly monitoring can cost as little as of a
wired solution.
• No other way: Wireless works for mobile assets, remote sites and
rotating equipment where using wired instruments is impossible or
impractical.

Wireless Communication Devices
• Two-way communication devices
• Transceivers
• Gateways Digital
Analog
Pulse
Digital
Analog
Pulse
Radar
Station
Fuel
Tanks
Standby
Generator
Airport
Management
SCADA

Key Features
• Key features of Wireless Solutions:
• Flexible
• Vast selection of digital, analog, and pulse inputs per transceiver
• Repeaters are not necessary
• Expandable
• Up to 31 serial expansion units
• Each radio is capable of sending / transmitting 20 miles when using an
antenna
• Reliable
• Redundant paths can be formed
• Routine connection verification
• Frequency hopping spread spectrum
• Secure
• Radios use a highly secure data encryption technique

ADVANTAGES:
• Adavantages:-
• Cost savings stem from:
• Reduced repair costs, and machinery downtime/damage (leaks,
corrosion, etc)
• Improved operational efficiency and process control
• Safety costs (avoided injuries)
• Reduced manual/personal monitoring
• Eliminated conduit/cable systems/cable trays installations

Things to take away
• Cost-effectiveness - When directly compared to wired installations, wireless is a very
cost effective alternative. Wireless modules allow seamless integration into all
applications enabling installation costs to be kept to a minimum.
• Reliability - Radio protocols include multiple addressing levels, error checking,
handshaking and automatic re-try mechanisms that guard against transmission failure.
Should a communications failure occur, wireless solutions can provide multiple levels of
alarm.
• Security - Most technology employed is state-of-art. As a result, each product has four
levels of protection.
• Data is embedded in wireless transmissions using a unique modulation technique.
• The data format has a unique structure with added security features, including network
and address validation.
• Data is encrypted using a high-security encryption algorithm.
• Wireless protocol operates on an exception-reporting basis, transmitting when there is
a change. This greatly increases the difficulty in collecting wireless samples for
decoding.
• Ease of installation - Our modules have built-in diagnostics and remote configuration
abilities that are designed to save time and hassles. Our free 24 hour technical support
provides further assistance should you require it.

THANK YOU !
• .

Wireless Water Monitoring System

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Editor's Notes