Build Your Dream
Vision Got Larger
Our vision got larger as we aimed to expand our impact globally, reaching new markets and setting higher standards of innovation and excellence.
Build Your Dream
13 Years Of Undefeated Success
13 years of undefeated success in building your dream reflects our unwavering commitment, resilience, and dedication to turning visions into reality, achieving excellence every step of the way.
512+
Successfully Project Finished.
13+
Years of experience with proud
1120+
Revenue in 2013 investment
1520+
Colleagues & counting more daily
Build Your Dream
Quality Services
Nature of business
The nature of business refers to the activities and operations that a company engages in to produce goods or services, meet customer needs, and generate profits.
Diesel, Lubricants Trading
Diesel and lubricants trading involves the buying and selling of fuel and oil products used to power engines and maintain machinery efficiency across various industries.
Lubricants Manufacturing
Lubricants manufacturing involves producing oils and greases that reduce friction and wear, ensuring smooth operation and longevity of engines and machinery.
Wholesale of Pledges refueling and fuel
Wholesale of pledges refueling and fuel involves the bulk distribution of fuel and related products to businesses, ensuring consistent supply for various industries and services.
Importing
Importing involves bringing goods or services from other countries to meet local demand and expand market offerings.
Exporting
Exporting involves selling goods or services to foreign markets, expanding a company's reach and increasing international trade.
Liquid Lubricants
Derived from crude oil, mineral oils are the most common lubricants used in automotive and industrial machinery.
Grease Lubricants
Grease is a thicker, semi-solid lubricant that stays in place better than oils, providing long-lasting protection in high-load applications.
Solid Lubricants
Solid lubricants are used when liquid lubricants cannot perform well due to high temperatures, pressure, or vacuum conditions.
Dry Lubricants
Dry lubricants are typically used in clean environments or where liquid lubricants might attract dust and dirt. These lubricants are applied as powders or thin films.
Water-based Lubricants
Water-based lubricants are often used in specific industries, such as metalworking. They are usually water with emulsifiers and additives that help reduce friction and provide cooling during machining.
Bio-based Lubricants
These are lubricants made from renewable resources and are considered more environmentally friendly than petroleum-based lubricants.
Our Core Values
We produce and market quality petroleum products and automotive services by empowering our people to exceed the expectations of our customers, partners shareholders and the community at large.
Great Services
Highest Standards
Professional Team
Creative Solutions
Technolube Brands
Our extensive portfolio includes leading national and global brands. We also blend and distribute a comprehensive range of the highest quality passenger car, heavy duty, industrial, and metalworking lubricants under our own brand.
WHAT WE DO
We have experience working with all types of flow meters, including below mentioned fittings, fabrication, and pumps.
| Meter | Pumps | Cam locks Fittings |
|---|---|---|
| Flow Meter Repairing | Gear Pump | Gear Plate |
| Electro Magnetic Flow Meter | Gear Pump Engine | Counter & Printer |
| Ultrasonic Meter | AC Pump | Air Ball |
| Water Meter | Pumps Meter | Coupling |
| Hot Water Meter | Oil Suction Hose | Hand Valve |
| Rotary Flow Meter | Submersible Pump | Gate Valve |
| Multi-jet meters Electromagnetic meters |
Petrol Engine Pumpbr Hand oil Pump |
Cam Locks Reducer Diesel Hand Gloves |
| Electromagnetic meters | Hand oil Pump | Diesel Hand Gloves |
| Water Meter Flange | MP Pumps | Ring |
| Flow Meter | Vane Pump | GI Fittings |
| Turbine meters | Pump Flange | Double Filter Body |
| Oval Gear Flow Meter | Diesel Engine Pump | Spill Kit Container |
| Digital Meter | Hand Pump with Meter | Gas kits |
| Diesel Meter | DC Pump 12v/24v | Spill Kit Bag |
| Meter Flange | Adjuster | PVC Seal Tag |
| Meter with Pump | Rotor | Mechanical Seal |
| Displacement water meters | Manual Cover | Emergency Valve |
| Flow Meter Skit | Civil Joint | Bend Civil Joint |
| Site Filling Meter | Nozzle | Heavy Automatic |
| Meter Filter | Dispenser Type Box | Digital Dispenser |
| TCS Meter | Sample Bottle | Meter for Engine |
| Water Finding Paste | Fuel Consumption | Recoil Starter |
| Meter Calibration | Measuring Jar | Steel Measuring Jar |
| Velocity water meters | Pipe Line Fittings | Hose |
| Compound meters | MS Pipe Fittings | Hose Reel |
| Composite Hose | Level Hose | Spiral Hose |
| LC Meter | Tanker Fittings | Automatic Nozzle |
CALIBRATION
Calibration means correction of instruments.
We use our instruments regularly and it’s
create a problem in reading and measurement
Even though ideally the flow meter should be
Unaffected by its environment, in practice this is unlikely to be the case. Often
measurement errors originate from incorrect installation or other environment
dependent factors. In suits methods are used when flow meter is calibrated in
the correct flow conditions.
Calibration is a comparison between using instruments and standard instruments, as well as a comparison between the final product and the standard product.
Standard instrument/product means predefined value added instruments/
Product.
IMPORTANT OF CALIBRATION
1. Calibration improves the accuracy of the measuring instruments.
2. Accurate measuring instruments improve product quality.
3. Get an accurate test value at the product of test time.
CALIBRATION USE
1. According to recommendations of the manufacturer (May be quarterly,
Yearly).
2. After any Mechanical & Electrical shock
3. At variation measurement and error results.
4. After Repair.
MAGNETIC FLOW METERS
Measure Flow rate of conducting fluid
Magnetic flow meters, often called “mag meters or
“electromag, use a magnetic field applied to the metering
tube, which results in a potential difference proportional to the flow velocity
perpendicular to the flux lines. The potential difference is sensed by electrodes
aligned perpendicular to the flow and the applied magnetic field.
The physical principle at work is Faraday’s law of electromagnetic induction.
The magnetic flow meter requires a conducting fluid and a non conducting pipe
line. The electrodes must not corrode in contact with the process fluid; some
magnetic flow meters have auxiliary transducers installed to clean the
electrodes in place. The applied magnetic field is pulsed, which allows the flow meter to cancel out the effect of stray voltage in the piping system.
ULTRASONIC WATER METERS
Ultrasonic water meters use one or
more ultrasonic transducer to send ultrasonic
sound waves through the fluid to determine the
velocity of the water. Since the cross-sectional area of the meter body is a fixed
and known value; when the velocity of water is detected, the volume of water
Passing through the meter can be calculated with very high accuracy. Because
of water density changes with temperature, most ultrasonic water meters also
Measure the water temperature as a component of the volume calculation.
Ultrasonic water meters are typically very accurate, with residential meters
capable of measuring down to 0.01 gallons or 0.001 cubic feet. There are 2
primary ultrasonic measurement technologies used in water metering: Doppler
Effect meters, which utilize the Doppler Effect to determine the velocity of
water passing through the meter. Transit Time meters, which measure the
amount of time required for the ultrasonic signal to pass between 2 or more fixed points inside the meter.
ELECTROMAGNETIC FLOW METER
Electromagnetic mean
We use this instrument to use electricity
Magnetic flow meters, commonly referred to as “mag
meters”, are technically a velocity-type water meter, except that they use
electromagnetic properties to determine the water flow velocity, rather than the
mechanical means used by jet and turbine meters.
Magnetometers use the physics principle of Faraday’s law of induction for
measurement and require AC or DC electricity from a power line or battery to
operate the electromagnets. Since mage meters have no mechanical measuring
element, they normally have the advantage of being able to measure flow in
either direction, or use electronics for measuring and totalizing the flow.
Water meters can also be useful for measuring raw (untreated/unfiltered) water
and waste-water since there is no mechanical measuring element to get clogged
or damaged by debris flowing through the meter.
WATER METER
Water meter is an instrument for recording the quantity of
water passing through a particular pipe or other outlet.
In many developed countries water meters are used to
measure the volume of water used by residential and commercial buildings that
are supplied with water by a public water supply system. Water meters can also
be used at the water source, well, or throughout a water system to
determine flow through a particular portion of the system. Some electronic
Meter registers can display rate-of-flow in addition to total usage.
There are several types of water meters in common use. The choice depends on
the flow measurement method, the type of end-user, the required flow rates,
and accuracy requirements.
After processing by the microcontroller unit (MCU) in the electronic module, the data are transmitted to the LCD or output to an information management
system.
COMPOUND METERS
A compound meter is used where high flow rates are
necessary, but where at times there are also smaller
rates of flow that need to be accurately measured.
Compound meters have two measuring elements and a check
valve to regulate flow between them. At high flow rates, water is normally
diverted primarily or completely to the high flow element. The high flow
element is typically a turbine meter. When flow rates drop to where the high
flow element cannot measure accurately, a check valve closes to divert water to
a smaller element that can measure the lower flow rates accurately. The low
flow element is typically a multi-jet or PD meter. By adding the values
registered by the high and low elements, the utility has a record of the total
consumption of water flowing through the meter.
TURBINE METERS
Turbine meters are less accurate than displacement and jet
meters at low flow rates, but the measuring element
does not occupy or severely restrict the entire path of
flow. The flow direction is generally straight through
the meter, allowing for higher flow rates and less
pressure loss than displacement-type meters. They are
the meter of choice for large commercial users, fire protection and as master
meters for the water distribution system. Strainers are generally required to be
installed in front of the meter to protect the measuring element from gravel or
other debris that could enter the water distribution system.
Fire meters are a specialized type of turbine meter meeting the high flow rates
requirements for fire protection. They are often approved by Underwriters
Laboratories (UL) or Factory Mutual (FM) for use in fire protection.
MULTI-JET METERS
Multi-jet meters are very accurate in small sizes and are
commonly used in ⅝” to 2″ sizes for residential and small
commercial users. Multi-jet meters use multiple ports
surrounding an internal chamber to create multiple
jets of water against an impeller, whose rotation
speed depends on the velocity of water flow. Multijets are very accurate at low flow rates, but there are no large size meters since they
do not have the straight-through flow path needed for the high flow rates used in
large pipe diameters. Multi-jet meters generally have an internal strainer element
that can protect the jet ports from getting clogged. Multi-jet meters normally
have bronze alloy bodies or outer casings, with internal measuring parts made
from modern thermoplastics and stainless steel.
VELOCITY WATER METERS
A velocity-type meter measures the velocity of flow through a
meter of known internal capacity. The speed of the flow can
then be converted into a volume of flow to determine the
usage. There are several types of meters that measure water
flow velocity, including jet meters (single-jet and multi-jet),
turbine meters, propeller meters, and magmeters. Most velocity-based meters have
an adjustment vane for calibrating the meter to the required accuracy.
DISPLACEMENT WATER METERS
Water meter in Belo Horizonte a typical water meter is an apartment complex in
Bangalore, India. Not that the meter provides reading in kiloliters. This type of
water meter is most often used in residential and small commercial applications
and homes. Displacement meters are commonly referred to as Positive
Displacement, or “PD” meters. Two common types are oscillating piston meters
and notating disk meters. Either method relies on the water to physically displace
the moving measuring element in direct proportion to the amount of water that
passes through the meter. The piston or disk moves a magnet that drives the
register.
OVAL GEAR METER
A positive displacement flow meter of the oval gear type,
Fluid forces the meshed gears to rotate; each rotation
corresponds to a fixed volume of fluid. Counting the
revolutions totalize volume, and the rate is proportional to
flow. An oval gear meter is a positive displacement meter that uses two
or more oblong gears configured to rotate at right angles to one another, forming
a T shape.
OPERATING PRINCIPAL
Such a meter has two sides, which can be called A and B. No fluid passes through
the center of the meter, where the teeth of the two gears always mesh. On one
side of the meter (A), the teeth of the gears close off the fluid flow because the
elongated gear on side A is protruding into the measurement chamber, while on
the other side of the meter (B), a cavity holds a fixed volume of fluid in a
measurement chamber. As the fluid pushes the gears, it rotates them, allowing the
fluid in the measurement chamber on side B to be released into the outlet port.
WORKING RULES
Meanwhile, fluid entering the inlet port will be driven into the measurement
chamber of side a, which is now open. The teeth on side B will now close off the
fluid from entering side B. This cycle continues as the gears rotate and fluid is
metered through alternating measurement chambers. Permanent magnets in the
rotating gears can transmit a signal to an electric relay switch or current transducer
for flow measurement. Though claims for high performance are made, they are
generally not as precise as the sliding vane design.
NOZZLE
For flow through nozzles, the heat transfer, work and potential energy are
normally neglected, and nozzles have one entrance and one exit. The conservation
of energy becomes
Velocity of fluid flow increases; Pressure exerted by that fluid Decrease
Is a device which increase velocity
Nozzle is an isentropic device. It’s not change any isentropic when some flow
inside not changing its shape and size.
The nozzle has a Study flow inside and when fluid flows through the nozzle, fluid doesn’t
transfer any heat surrounding it means Nozzle is a perfectly adiabatic device. No
heat
SHAPES
Nozzle has a shape of convergent
It has one inlet and outlet From here, we can see that the inlet is bigger than from the
outlet
OPERATING PRINCIPLE
As we can see, fluid is flowing from left to right. Initially before the flow it into
the nozzle has the characteristic of high pressure and low velocity as attention
to the nozzle, it will flow through the outlet, having low pressure and high
velocity. It is important to remember that the volume of mass into the nozzle is equal
the volume of mass exerted the mass is consents
BERNOULLI’S PRINCIPLE
Velocity of fluid flow increase pressure exerted by that fluid Decrease
OPERATING PRINCIPLE
Turbo Fan exhaust
Spray Nozzle
Vacuum cleaner nozzle
m=pVA
The conservation of mass tells us that the mass flow rate m dot through a tube is a
constant and equal to the product of the density P, vacuum V, and flow area A
About Founders
Our Latest Works
Whar Our Clients Say
Testimonials
Engineering Manager
Alice Howard
I have had the pleasure of working with Alice Howard for the past several years, and her leadership as an engineering manager has been nothing short of exceptional.
Interior Designer
Nathan Marshall
I had the privilege of working with Nathan Marshall on the design of my home, and the experience was nothing short of extraordinary.
Architect
Ema Romero
It has been an absolute pleasure working with Ema Romero on our recent architectural project. Ema's creativity, attention to detail, and deep understanding of both form and function transformed our vision into a beautifully designed reality.
Manager
Ann Smith
I have had the privilege of working alongside Ann Smith for several years, and I can confidently say that she is one of the most dedicated and effective managers I've encountered.
Request a Quote
Learn More From
Frequently Asked Questions
Creating cities and communities that solve problems requires a holistic approach that prioritizes sustainability, inclusivity, and innovation.
The construction of a winning 1 million AED project involves careful planning, strategic allocation of resources, and efficient execution to ensure success.
Our clients in the petroleum industry consistently commend our commitment to quality, reliability, and innovation.