RISK OF CHEMICAL BURN

WHAT CAN HAPPEN

HOW TO PREVENT IT

• Use of acids, toxic or corrosive chemicals,

• Do not use acids, gasoline, kerosene, or any

poisons, insecticides, or any kind of fl ammable

other fl ammable material in this product. Use

solvent with the product could result in injury or

only household detergents, cleaners, and

death.

degreasers recommended for use in pressure

 

washers.

 

• Wear protective clothing to protect eyes and

 

skin from contact with sprayed materials.

 

 

RISK OF ELECTRICAL SHOCK

 

 

WHAT CAN HAPPEN

HOW TO PREVENT IT

• Spray directed at electrical outlets or switches,

• Unplug any electrically operated product before

or objects connected to an electrical circuit,

attempting to clean it. Direct spray away from

could result in a fatal electrical shock.

electric outlets and switches.

 

 

RISK OF INJURY FROM LIFTING

 

 

WHAT CAN HAPPEN

HOW TO PREVENT IT

• Serious injury can result from attempting to lift

• The pressure washer is too heavy to be lifted

too heavy an object.

by one person. Obtain assistance from others

 

before lifting.

 

 

READ AND SAVE THESE INSTRUCTIONS

SPECIFICATIONS

Model

MSV2600

MSV3000

Max Pressure*

2600 PSI

3000 PSI

Max Flow*

2.3 GPM

2.5 GPM

* Water fl ow and maximum pressure ratings determined in accordance with PWMA standard PW101.

NOTE: Photographs and line drawings used in this manual are for reference only and do not repre- sent a specifi c model.

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Simpson MSV2600, MSV3000 Specifications, Risk of Chemical Burn What can Happen HOW to Prevent IT, Risk of Electrical Shock

MSV2600, MSV3000 specifications

The Simpson MSV2600 and MSV3000 models are prominent offerings in the world of multivariable flow measurement technology, designed to cater to a diverse range of industrial applications. Both models are tailored for accuracy and reliability, making them crucial tools for process industries including oil and gas, water and wastewater, chemical manufacturing, and HVAC systems.

One of the primary features of the MSV2600 and MSV3000 is their ability to measure multiple parameters simultaneously. These devices are capable of measuring flow, pressure, and temperature, delivering comprehensive data that supports real-time decision-making. This multivariable capability reduces the need for multiple instruments, thereby simplifying system design and reducing installation costs.

Both models utilize advanced differential pressure technology to ensure precise measurement. The MSV2600 generally offers a nominal accuracy of ±0.5%, making it a highly reliable solution for various flow applications. The MSV3000 takes accuracy a step further, achieving ±0.2%, which is vital for high-precision processes.

In terms of technology, both the MSV2600 and MSV3000 are designed with a robust and compact construction. This enhances their longevity and performance reliability even in harsh industrial environments. The devices can operate over a wide temperature range, ideal for fluctuating operational conditions.

Their user-friendly interface is an essential characteristic, featuring an intuitive display that allows for easy configuration and real-time monitoring. Additionally, both models are compatible with various communication protocols, enabling seamless integration into existing control systems. This feature is particularly appealing to industries looking to modernize their processes with minimal disruption.

Moreover, the MSV2600 and MSV3000 are equipped with advanced diagnostics tools that facilitate predictive maintenance. This capability helps in minimizing downtime and reducing the costs associated with unexpected outages.

Another notable characteristic of these models is their energy efficiency. Enhanced design elements reduce power consumption while ensuring optimal performance, aligning with the growing trend towards sustainable manufacturing practices.

In summary, the Simpson MSV2600 and MSV3000 multivariable flow measurement devices offer a blend of accuracy, reliability, and technology tailored for industrial use. Their multi-parameter measuring capabilities, robust construction, advanced diagnostics, and energy-efficient design make them a smart choice for organizations aiming to optimize their operations and ensure process integrity.