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Made in India

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Vortex Engineering is an India-based company making self-service transaction systems (such as ATMs) for banks. Vortex also offers services for ATM Management.

Vortex ATMs are also now used in several countries outside India, especially in Asia & Africa. Vortex is backed by investors: Tata Capital, Aavishkaar, Ventureast, Oasis and IFC (A World Bank subsidiary).

Vortex has specifically designed ATMs that could operate(up-to 50-degree-Celsius) at any conditions in the world. The ATMs manufactured by Vortex consumes very less power and constitutes very less mechanical and electrical parts as compared to other conventional ATMs. All the Vortex ATMs come with solar power options for greater availability in areas having severe power shortage, whereas no other ATM is commercially viable to be operated with solar power due to its higher power consumption

Vortex Ecoteller is the only Automated teller machine operates on Linux platform.

Ecoteller ATM

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Small Bunch Note Acceptor

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Bunch Note Acceptor
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Desktop ATM – Ecoteller Mini
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Through The Wall
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Godrej Material Handling is India’s largest lift truck manufacturer-exporter. Established in 1963, we provide mobile

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Godrej Precision Engineering Division delivers customized solutions meeting exacting quality requirements in the high technology domain.


  • Manufacture of Wind Turbine Generator Parts : These are precision fabricated and machined to close tolerances. The present focus is to produce the large parts needed for gearless wind turbines.

  • Customized equipment : Large precision fabricated and machined equipments for Gas & Steam Turbines, Turrets for Ladles in Steel industry for the continuous casting process.
  • Equipment for Nuclear Power Generating plants of Nuclear Power Corporation Ltd : Godrej Precision Engineering is qualified for several fuel handling and positioning systems for the Power Plants and competes for orders from NPCIL.
Calandria for 700MW PHWR

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Bridge and Carriage-700MW Nuclear reactor for NPCIL

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Used for positioning fuelling machine head in front of fuel channels in the reactor, remote operation.

Rotating Plugs of PFBR

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Used for aligning fueling arm with fuel channels in Fast Breeder reactor

Drive Mechanisms for Nuclear reactor


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Drive Mechanisms move control Rods up and down in reactor core to control nuclear reaction and also act as safety mechanism to shut down reaction

Rotating Plug Mechanism for BARC

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Application: Used to align equipment with fuelling ports (280 nos) of reactor pressure vessel during fueling/ fuel retrieval in nuclear powered submarines

Cryo Arm Systems

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The Precision Engineering Systems (PES) Division has contributed to the ambitious
Second Launch Pad (SLP) Project of the Indian Space Research Organisation (ISRO), Sriharikota, by supplying two Cryo Arm Systems in December 2003. This new Launch Pad, besides accommodating PSLV, GSLV, can also accommodate next generations of Launch Vehicles.

It is designed to receive fully assembled Vehicles, which will enable as many as 12 launches per year, as against approximately two launches per year in the current set-up. This will enable ISRO to take up commercial launches for other countries in a major way.

The Cryo Arm Systems made by Godrej will be used to supply Liquid Oxygen (LOX) and Liquid Hydrogen (LH2) to the Launch Vehicle. The fuel lines will remain connected to the Vehicle till firing, in order to continuously circulate low temperature fuels. During Vehicle Lift-off, the Arms (approximately 16 meters long) need to be disconnected from the Vehicle, and need to be swiftly swung back in just three seconds time.
 
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Escorts Construction Equipment manufacturers and markets a diverse range of construction and material handling equipment like cranes, loaders, vibratory rollers and forklifts. The company was a pioneer in introducing the concept of Pick 'n' Carry hydraulic mobile cranes in the 70s in India and continues to be the world's largest manufacturer of these cranes.

Backhoe loader -Escorts Digmax II

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Powered by a Kirloskar 4R1040TC water cooled diesel engine

Soil Vibratory Roller EC 5250

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Tandem Vibratory Roller

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Pick-n-Carry Cranes


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Tow Tractor

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Multi Loader

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ACTION CONSTRUCTION EQUIPMENT LIMITED (ACE) is India’s leading material handling and construction equipment manufacturing company with a majority market share in Mobile Cranes and Tower Cranes segment. In addition to Mobile Cranes, ACE also offers Mobile/Fixed Tower Cranes, Crawler Cranes, Truck Mounted Cranes, Lorry Loaders, Backhoe Loaders/Loaders, Vibratory Rollers, Forklifts, Tractors & Harvesters and other Construction Equipment. ACE has a consolidated presence in all major Infrastructure, Construction, Heavy Engineering and Industrial Projects across the country.

Established in the year 1995, today ACE has full-fledged state of the art production facilities based at industrial townships of Faridabad (Haryana), Kashipur (Uttrakhand). These Plants are fully equipped to produce around 12000 Construction Equipment and 9000 Tractors.

Backhoe
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KIRLOSKAR 4R1040T

Motor Grader
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Pick & Move Cranes

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Tower Crane

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Harvester Combine

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Telehandler



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Vibratory Rollers


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Godrej Process Equipment is a leader in fabricating unit static equipment for process industries. Established in 1976, Godrej Process Equipment manufactures the entire range of process equipment for end-users in core industry segments like Refineries, Petrochemicals, Fertilizers, Oil & Gas, Chemicals, Pharmaceuticals and Power around the world.

Established in 1976, Godrej Process Equipment manufactures the entire range of process equipment for end-users in core industry segments like Refineries, Petrochemicals, Fertilizers, Oil & Gas, Chemicals, Pharmaceuticals and Power around the world.

Located in the industrial garden of Vikhroli, a northern suburb of Mumbai, in India, the lush green Godrej complex and Godrej Process Equipment's impressive manufacturing facilities strike the eye.

Polypropylene Reactor

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Diesel Hydotreating (DHDT) reactor

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Continuous Catalyst Regeneration (CCR) Reactor

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http://www.barc.gov.in/publications/nl/2006/200606-1.pdf

http://www.iaea.org/inis/collection/NCLCollectionStore/_Public/30/003/30003821.pdf

12 year old news...!!!!

Where robots dare


Minimising human exposure to nuclear radiation is imperative. Using robots does just that. It also shrinks the time taken to carry out a task, increases accuracy and reliability and allows future inspection.



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Four legged robot developed to inspect heat exchangers can be reprogrammed for use by other industries too.


MENTION THE word nuclear and some heart-rending images of Hiroshima and Nagasaki holocaust comes to our mind. True, nuclear radiation of such intensity and magnitude does produce devastation beyond human comprehension. In contrast, the damage from dealing with tonnes of (non-weapon grade) radioactive material or small quantities of highly radioactive material pales in comparison. Yet all efforts to minimize human exposure to this become imperative. And the answer lies in automation and use of robotics — a lifeline for the nuclear energy programme.

The Indira Gandhi Centre for Atomic Research (IGCAR) at Kalpakkam and Bhabha Atomic Research Centre (BARC) at Mumbai have mastered this technology as much as they have the core nuclear technology. Four legged and six axis robots apart from a host of other robots developed by them are testimony to this.

Generating power for more than a century using vast reserves of thorium, the ultimate goal of India's nuclear energy programme, will make the use of robotics inevitable. Highly radioactive Thallium (Tl{+2}{+0}{+3}) isotope produced when thorium is converted to U{+2}{+3}{+3} warrants heavy shielding at the fuel fabrication site if robots are not deployed.

Similarly, shrinking the fuel cycle time that includes fuel reprocessing and refabrication would remain difficult if not impossible sans robots. Or take the case when advanced fuel cycle technology is used or for regular in-service inspection, for remote maintenance, remote assembly, removing radioactive spillage or accessing areas beyond reach. Robots are gaining importance and becoming indispensable for the success of the programme.

Four legged robot

A four legged walking robot developed a year ago by IGCAR to inspect heat exchangers has been perfected recently. Final deployment is waiting for a full scale mock testing. This is the first time a robot for inspecting a heat exchanger has been developed in India.

The robot walks on the tube-sheet surface and inspects individual tubes for existing and potential damage. "This can be done manually too but a robot can shrink the time to one tenth.

Also, the accuracy and reliability when done manually would be no match to a robot," said K.V. Kasiviswanathan, Head of PIE and Remote Handling Section, Metallurgy and Materials Group. More importantly it allows future inspection of a particular tube easy.

"The stability (of the robot) can be increased by using more legs but at the cost of size and compactness. Also inspecting the tubes along the periphery of the tube-sheet surface would become difficult," he pointed out. It has the ability to gyrate and inspect a number of tubes from one location.

Six-axis robot


As the name suggests it has six degrees of freedom. "In short it mimics a human hand with all its ability to move and rotate in different directions," Dr. Kasiviswanathan elucidated. This is again the first time that such a robot has been developed in the country.

It has already been put to use for repair welding. With the six-axis robot technology being mastered, it is now possible to develop smaller module robots with lesser numbers of freedoms for specific requirement. The main advantage lies in the fact that the concept and technology have been tested with a six-axis robot and making a robot with fewer degrees of freedom would not require any technology development.

A five axis ultrasonic testing system has also been developed and used at IGCAR. Here the manipulator has three linear motions and two rotary motions. The manipulator combined with high-speed data acquisition capability and imaging software can provide ultrasonic scanned images of a fraction of millimetre accuracy.

Another system has been developed for inspecting pipes in both circumferential and axial directions. "We have developed the fundamental carrier. Probes, be it a camera or ultrasound can be put according to user's requirement," he said.

IGCAR in collaboration with BARC has now taken on the task of developing another robot for inspecting the main and safety reactor vessel. It is being designed to work at 150{+o} C and in interspaces of just 30 cm. A prototype is being developed at BARC. It must be ready for use before commissioning the Kalpakkam reactor as it is a mandatory requirement to do pre service data collection. "We are confident of meeting the deadline," said Dr. Kasiviswanathan sounding optimistic.

How industries can benefit

FOUR LEGGED robots developed for inspecting the tubes of a heat exchanger can be a big bonanza industries. The robot can be reprogrammed to enable it to inspect various pipe arrangements of these industries provided the tube-to-tube distance and arrangements are known. This makes the robot adaptable to inspect any heat exchanger. It reduces inspection time by one tenth and increases accuracy many fold.

"We have made the four legged robot as generic as possible. So any industry that has a heat exchanger can use it with least modifications. Considering that a heat exchanger fails often this robot would be ideal to these industries," said Baldev Raj, Director, Materials, Chemical and Reprocessing Group, IGCAR.

"We have attained the expertise and are willing to transfer the technology to anybody who is interested," Dr. Kasiviswanathan said. IGCAR is already talking to the Department of Science and Technology (DST) for technology transfer.

The sampling robot is yet another one that Dr. Raj feels that industry would stand to gain. This robot is designed to take samples from running stream like waste stream and send the sample for analysis and suggest changes. It is now done manually. The industries working alongside IGCAR to develop robots have matured to a level where it can design, model, develop, manufacture and even test cutting edge technology tools. But the industries will have to customise it to suit their requirements.

"We have reached a level of competence to even export it. Our technology is competitive with the best around the world," Dr. Raj pointed out. So what are these industries waiting for?
 
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Over the years, Kirloskar Pneumatic Company Ltd. has developed various sophisticated and high-tech products in the above categories to cater to the demands of various industrial sectors. KPCL has also established a number of joint ventures and technology partnerships with leading global companies. It has earned the distinction of developing a host of advanced products to suit Indian conditions and has been continuously updating them to maintain the highest standards of quality and reliability.

The company started its operations with the manufacture of Air Compressors and Pneumatic Tools. New product lines were then added, including Air Conditioning and Refrigeration systems, Marine HVACR, Process Gas systems and Hydraulic Power Transmission machinery. The company has also earned an enviable reputation for its Systems Engineering and Turnkey Project expertise.

Centrifugal Air Compressors

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Reciprocating , Horizontal , Balanced Opposed , Piston Compressors

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Kirloskar Railway Brake Compressors

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Reverse Reduction Hydraulic Marine Gear


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rating up to 15000 hp

Forward / Reverse Turbo Transmission For Locomotive

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Wind Turbine Gear Boxes


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Compressor For Refrigeration Systems

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Modular Concrete Cooling

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Water Chilling plants and Flake Ice Plants for the construction industry.

Flake ice machines are in capacities ranging from 10 TPD to 45 TPD of ice. A continuous operation without a harvest cycle results in less refrigeration capacity required to produce a ton of ice as compared to any other type of manufactured ice with similar specifications. All water used by flake ice machines is converted into ice, hence, waste or spillage is avoided.

Single stage Kirloskar KC Compressors with Ammonia are used for 10 & 20 TPD at an evaporating temperature of
-18 Deg C (-4 Deg F). For other capacities two stage internally compounded KC compressor operates at an evaporating temp of -25 Deg C ( -13 Deg F) thus giving faster cooling and higher capacity of flakes.

KRX Screw Compressor

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Vapour Absorption Chillers


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Indigenous Kirloskar Vapour Absorption Chillers (VAC) is the state of the art, highly efficient machine. KPCL has established manufacturing facility at our existing Saswad factory, Near Pune. The manufacturing facilities include Fabrication, Assembly and Performance Testing at full load etc

Roadrailer

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http://www.indianrailways.gov.in/ra...gg/downloads/freight/2013/Mech_Frt_230713.PDF

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Having been a supplier to the Indian defence and aerospace sectors for the past four decades, MTAR Technologies Private Limited, fabricates precision components and complex engine systems for Nuclear,Space,Defense and Oil & Gas sectors.

CRYO ENGINE – TURBO PUMP

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Vikas Engine
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VERTICAL FUELING MACHINE for AHWR


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Some of the equipment made for PHWRs..

Fueling Machine Head

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Transfer Magazine

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Shuttle Station

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BALLSCREWS

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