IW4/IW7 WB/WBV

Operations

After exiting the roller set and storing of the measurement values the rotational direction reverse is immediately deactivated. The test stand is in the Automatic mode again.

3.10Special Points about the Hongkong Mode

Test stands with the Hongkong mode one side will continue to measure even once the other side has switched off via slip. The other wheel will be blocked at a later point in time due to the pedal force being raised.

Test Procedure

Switch on the test stand and and wait for ready-to-test.

1Drive onto the rollers.

2Rollers start up.

3Brake slowly until one roller side has reached slip. Either the left or right hand side will switch off. The respective pointer falls back to zero.

4Slowly continue to brake until the other roller side has reached slip. Either the left or right hand side will switch off.

The respective pointer stops and the other pointer shows the first brake value.

Slip is too small:

The roller does not switch off. Release the brake.

Store the max. value using the corresponding key combination on the remote control.

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Maha Energy IW4 WB / WBV, IW7 WB / WBV manual Special Points about the Hongkong Mode, Test Procedure, Slip is too small

IW4 WB / WBV, IW7 WB / WBV specifications

Maha Energy has been at the forefront of innovative technologies in the oil and gas sector, particularly with the introduction of its IW7 WB / WBV and IW4 WB / WBV systems. These advanced technologies are designed to optimize production, increase efficiency, and enhance overall resource management in hydrocarbon extraction.

The IW7 WB and WBV systems are known for their robust design and efficient performance. These systems integrate state-of-the-art technology with user-friendly interfaces, enabling operators to monitor and control production from a centralized location. The IW7 series boasts a modular architecture, allowing for easy upgrades and maintenance, providing a future-proof solution for energy production.

One of the standout features of the IW7 WB / WBV is its advanced wellbore stability technology. This feature significantly reduces the risk of wellbore collapse and enhances the longevity of the production wells. Additionally, the system incorporates real-time data analytics, enabling operators to make informed decisions on production optimization and resource allocation. The use of predictive maintenance schedules further minimizes downtime, ensuring that production remains consistent and efficient.

Similar in innovation, the IW4 WB and WBV systems offer exceptional versatility and reliability. These models cater specifically to varying production environments and can be tailored to meet specific operational needs. The IW4 series is equipped with advanced sensors and automation capabilities, allowing for seamless integration with existing infrastructure and enhanced data collection for performance analysis.

Both IW7 and IW4 systems utilize cutting-edge materials designed to withstand harsh operational conditions, ensuring durability and reducing maintenance costs. The systems use intelligent controls to optimize flow rates and minimize energy consumption, demonstrating Maha Energy's commitment to sustainable practices in the industry.

Furthermore, the environmental impact of these technologies has been carefully considered. By improving efficiency and reducing waste, the IW7 and IW4 systems contribute to lower emissions and a lesser environmental footprint.

In conclusion, Maha Energy's IW7 WB / WBV and IW4 WB / WBV technologies represent a significant leap in oil and gas extraction systems. Through their advanced features, robust design, and commitment to sustainability, these systems are set to redefine standards in the industry, ensuring that energy production is both efficient and eco-friendly. As the energy landscape continues to evolve, Maha Energy remains dedicated to providing innovative solutions that meet the demands of tomorrow’s energy market.