FUNDAMENTAL AND APPLIED RESEARCH PROJECT

OUR JET DRONE DESIGN CONCEPTS

We are developing two jet drone design concepts called:

• Mjöllnir;
• Shuriken.

The Mjöllnir and Shuriken jet drone design concepts include:

• low observable shape;
• rapidity drive systems of control surfaces;
• powerful engines.

CURRENT STATUS

We are at the stage of engineering design and improvement of aerodynamic characteristics through computational analysis.

We are preparing for wind tunnel testing.

We are at the stage of flight control system development and creation of hardware implementation of control system to ensure of stability for low observable shape drones.

LOW OBSERVABLE SHAPE

The Mjöllnir and Shuriken jet drone design concepts include blended wing-body concept.

It provides:

• Significant payload benefits in strategic airlift;
• Increased fuel efficiency;
• Lower noise.

The blended wing-body concept is closest to the ideal form of stealth.

The blended wing-body concept will allow future modifications of the Mjöllnir and Shuriken jet drones to dispense with a tailplane.

RAPIDITY DRIVE SYSTEMS OF CONTROL SURFACES

The control surfaces of aircraft are set in motion by a drive systems.

The improving of jet drone dynamics requires improving drive systems of jet drone.

The Mjöllnir and Shuriken jet drone design concepts include patented magnetorheological control surface drive systems.

The magnetorheological fluid control flow paths improve the dynamics and precision of control surface drive systems.

POWERFUL ENGINES

The Mjöllnir and Shuriken drone design concepts include the possibility of installing jet and rocket engines. 

The use of jet and rocket engines allows drones to reach supersonic and hypersonic speeds.

INDUSTRIAL PROJECT

PROBLEM

The amount of waste generated is growing dramatically.

Organic waste is one of the main components of the waste streams.

Organic solvents and other organic waste are becoming a major problem for Oil & Gas, Petro-chemical and other industries.

WORLD TRENDS

• Increased regulation.
• Industry is responsible for the waste it generates.
• Ban on landfilling.
• Limits on greenhouse emission.
• Promotion of recycling and recovery.
• Economic incentives for green / energy efficient waste treatment processes.

SOLUTION

Plasmatron waste solution is a unique & economic plasma gasification process of organic waste in to syngas - a hydrogen rich fuel source.

Proprietary innovative design of the plasma gasification system reduces construction & operation costs.

Plasma Gasification produces lower emissions than other Waste-to-Energy technologies.

BUSINESS MODEL

Selling of equipment:

• PG-WTE-350 – small scale container type solution;
• PG-WTE-1050 – medium capacity modular system;
• PG-WTE-2100 – full scale commercial treatment facility;
• Automation of plasma gasification systems;
• Plasma system parts (electrodes, torches, spare parts).

Engineering services (for plasma systems):

• Technology licenses;
• Conceptual and detailed engineering;
• Procurement.

Online customer services:

• SCADA Systems Architecture for plasma gasification;
• Online services for monitoring of technological processes and 24/7 production management with repair and maintenance.

CURRENT STATUS

Plasmatron and reactor GEN.1 built and tested:

• Provisional patent approved;
• Successful test run using a power generator;
• Pilot testing at Dor chemicals site expected.

Company’s offices are located in the Scientific Park Ness Ziona.

Workshop is located in Brothers Maimiev Metal Industries and Construction.

FUNDAMENTAL AND APPLIED RESEARCH PROJECT

APPLICATION OF POWER SYSTEMS WITH TRANSONIC-SUPERSONIC PLASMA FLOWS

Plasma engines have been used in satellites for over 60 years. Dozens of different plasma engine designs for satellites already exist. Plasma engines have proven themselves in the aerospace industry.

Plasma engines have low fuel consumption and high-speed characteristics of jet flow.

Also, plasma engines have large specific impulse and high value of specific thrust.

Future prospects of the plasma power systems applications:

• Mobile power supply technology;
• Autonomous power plants of underwater drones;
• Aircraft engines and rocket engines.

Some of the key applications to show prospect include but are not limited to military and aerospace industries.

Plasma power systems can be an alternative to existing engines that are used in aircraft, rockets and underwater drones.

INNOVATIONS OF POWER SYSTEM WITH TRANSONIC-SUPERSONIC PLASMA FLOWS BY PATENTED VORTEX ELECTROMAGNETIC FIELD TECHNOLOGY   

For example, when the gas or plasma flow slows down, the temperature and pressure rise due to molecular friction and compression but the plasma must first be accelerated.

We increase thermodynamic effects in the plasma flow by implementation of aerodynamic effects. 

The using of vortex (or the spiral) flow path allows achieving a significant increase of energy at small dimensions of device, and oppositely directed gas or plasma flows decelerate each other.

We hold, accelerate and decelerate transonic-supersonic plasma flows by patented vortex electromagnetic field technology.

We have patents of original vortex electromagnetic field technology in the special purpose devices.

CURRENT STATUS

We are at the stage of engineering design and improvement of aerodynamic characteristics through computational analysis.

We are preparing for full-scale aerodynamic testing of power system with transonic-supersonic flows.

FUNDAMENTAL AND APPLIED RESEARCH PROJECT

APPLICATION OF PATENTED VORTEX ELECTROMAGNETIC FIELD TECHNOLOGY IN THE DRIVE AND FUEL SYSTEMS OF JET DRON

In the future jet drones will replace combat jets.

Therefore, it is necessary to improve the dynamics of jet drones.

The improving of jet drone dynamics requires improving drive and fuel systems of jet drone.

PATENTED VORTEX ELECTROMAGNETIC FIELD TECHNOLOGY IN DRIVE AND FUEL SYSTEMS

The magnetorheological fluid control flow paths improve the dynamics and precision of drive systems.

We have patents of original vortex electromagnetic field technology in the special purpose devices:

• Magnetorheological control device construction realizes the principle of combined flow rate control of magnetorheological fluid, which consists of the implementations of viscosity regulation and generation of hydrodynamic, rheological, and gyroscopic effects in magnetorheological environment by means of nonstationary (vortex) electromagnetic fields.
• Magnetohydrodynamic pump construction with helical electromagnetic control fields allows significant increase in the flow rate of magnetorheological fluid at small dimensions of the operating cavity and smaller values of the electromagnetic field parameters in comparison with analogue.

The use of magnetorheological drive systems makes the control of actuated mechanical elements easier and magnetorheological drive systems can be applied in the upper control flow paths of the multistage hydraulic amplifiers.

The magnetorheological fluid control flow paths simplify also the regulation of drive system, because the magnetorheological fluid systems do not require a transformation of the input electrical signals to others forms of energy, which increases the speed of response of drive system to control signals.

Consequently, it is advisable to develop not only the magnetorheological systems, but also to create the hybrid constructions of hydraulic systems (drive and fuel systems) with magnetorheological control flow paths or ferrofluid control element.

CURRENT STATUS

We are at the stage of improvement of magnetorheological drive system specifications through computational analysis.

We are preparing for full-scale dynamic testing of magnetorheological drive systems with patented vortex electromagnetic field technology.

INDUSTRIAL PROJECT

We develop a complete solution for the automated production lines and assembly systems.

We offer customers the online services based on industrial process automation such as SCADA.

Our online services for monitoring of technological processes and 24/7 production management with repair and maintenance make production process safe and reduce operation costs.

We are constantly working to improve our services and developing new solutions to automate production processes.