KGYAT Pumps
Seeding newer (Zero Carbon) technologies
KGYAT – the project engineering arm of GYATK.
Introducing
RVCR concept based Pumps
The concept Technology
Variable Delivery Feature
The feature discussed in the above para is known as Variable delivery. Pumps that can adapt their discharge are known as variable delivery Pump. These are rare pumps and very limited in number used only in very specialized types of applications mostly Hydraulics.
RVCR mechanism for the 1st time makes a simple system that deliver ‘Variable Delivery Pumps’. It can achieve variation in flow rate with a simplified mechanism compared to conventional variable delivery pumps. It can be scaled up in large sizes with ease to handle large volumes of fluids. The simplicity of RVCR parts makes it Possible. The simplicity of the design and the large volumes it can handle results in mutli-fold increase in its Flow rate ratio to weight and flowrate ratio to the pump Volume ratio. Hence RVCR can be used to handle fluid on industrial scale in process industry ranging from Waste water treatment to Sludge dewatering and thickening etc.
Why RVCR Pumps ?
The Principle
RVCR wind Motor configuration converts higher wind velocities at elevated levels into low pressure communicated through a wind stack to higher air pressure at ground level (‘near zero air velocities) and utilizes RVCR wind motor (Prime Mover) at lower end of the stack to tap into the flow in the rising column of air for power generation. This is made possible due to key attributes of RVCR methodology in simplifying the means to achieve a ‘Rotary Positive Displacement Mechanism’.
The Impact
A source of round the clock, self-sufficing economic power generation unit at proximity, eliminates the extremely demanding energy concerns of populace in general that provides for independence towards tapping the enormous opportunities available locally, leading to a continual upgrading cycle of improved standard of living.
Unique capabilities
- Power unit installation on ground
- No open rotating blades
- Quieter operation, no bird hazards
- Gyroscopic couple eliminated
- City building embedded installation
- No lock-down during storm force wind
- RPM control by air-flow bypass
- Torque control by vane displacement
- No yaw gear
- No synchronous gearbox
the commercial
RVCR wind motors for
tapping climate energy without using rotating blade turbines.
Our RVCR wind motors project is aimed at creating newer markets of highly efficient ‘City-based’; ‘Off and On-shore’ wind power units. A 1st of its kind to be based on positive displacement mechanism. RVCR wind motors enables tapping of rough weather winds (when turbines collapse) thus initiating the advent of ‘Climate energy power systems’.
RVCR affects multi-fold increase in ‘Energy Capture Factor’, cuts installation and operational costs. The project is selected by Global entrepreneurship program of the UK dept of International trade to base its business operations in UK.
The project operations
Electric Motors
Coaxial flux flow motors
An evolutionary leap in electromagnetic force conversion.
For nearly 200 years now electrical motors are based on rotary (cylindrical stator supported rotor) mechanism. RVCR simplifies conversion of electromagnetic energy into torque whilst enhancing efficiency and miniaturization. It improves efficacy of torque conversion and enables easy intricate control of time and intensity of electromagnetic force for outputting wide range of torque output.
RVCR motor have the compactness of axial motors, but flux is not tangential to rotor motion, rather along the rotational axis. The project is in early stage.
Offers
Electric Motors
Coaxial flux flow motors
An evolutionary leap in electromagnetic force conversion.
For nearly 200 years now electrical motors are based on rotary (cylindrical stator supported rotor) mechanism. RVCR simplifies conversion of electromagnetic energy into torque whilst enhancing efficiency and miniaturization. It improves efficacy of torque conversion and enables easy intricate control of time and intensity of electromagnetic force for outputting wide range of torque output.
RVCR motor have the compactness of axial motors, but flux is not tangential to rotor motion, rather along the rotational axis. The project is in early stage.