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L<strong>Lifetech</strong> 360° is a team of experts in the field of fire & life-safety with<br />
more than a decade of hands-on experience in consultation, design,<br />
engineering and supervision of fire protection systems. We work closely<br />
with all of our clients through out the design, testing and commissioning<br />
stages. First, we understand our customers’ requirements, then we seek<br />
to fulfill them. This meticulous approach allows us to provide highly efficient<br />
safety and security systems.<br />
As a company, we believe in the value of quality, and in perfecting our work.<br />
Our operations may be broad, as they extend across the safety and security<br />
spectrum, but our goal is always one: To provide and maintain long safety<br />
and security solutions. We work with many industries, and provide solutions<br />
tailored to their needs. These include the manufacturing, residential, aviation,<br />
transportation and energy industries, among others. In short, we provide<br />
specialized solutions for each client.<br />
<strong>Lifetech</strong> 360°<br />
Engineering for Life!<br />
Standards:<br />
<strong>Lifetech</strong>-360 Consultancy Pvt Ltd
“how much does it cost to create a<br />
LIFESAFETY<br />
ENVIRONMENT?”<br />
At <strong>Lifetech</strong>, we deliver reliable safety and<br />
security solutions to help our clients protect<br />
lives and properties. At the heart of our<br />
effort is a commitment to client satisfaction as<br />
the only way to achieve sustainable growth.<br />
We strongly believe that service quality is determined by the positive attitude and<br />
dedication of our people. Therefore, we strive to be:<br />
Professional: To ensure excellence in every service, solution and function that we<br />
provide.<br />
Reliable:<br />
<strong>Comp</strong>etent:<br />
Honorable:<br />
Proactive:<br />
To increase effectiveness and efficiency by using the best<br />
technology available.<br />
To commit our skills and energies to becoming one of the best<br />
safety and security companies.<br />
To deal with clients with complete integrity and honesty.<br />
To conquer all challenges and seek every opportunity in order to<br />
gain the competitive edge in the market.
Our first step in every fire protection project is a detailed risk analysis for the facility. This allows us<br />
to identify the most effective solution for the protection of lives and properties. In designing our Life<br />
Safety Systems, we use BIM (Building Information Modeling), as it allows us to visualize the solution<br />
before it is implemented. Our solutions are designed to meet all governmental regulations, insurance<br />
requirements and any other governing bodies. So, whatever your needs, we will provide the right solution.<br />
<strong>Lifetech</strong> is proud to own a technologically advanced, state-ofthe-art<br />
engineering studio. Our design team is composed of tech-savvy<br />
experts who strive to deliver design solutions that match international<br />
fire safety standards. We are capable of meeting the standards of both<br />
international regulatory bodies like NFPA or FM Global, and local<br />
authorities like the Civil Defense and NBC.<br />
We have a thorough design process which takes into consideration<br />
code compliance, fire safety goals, project-specific requirements, design<br />
practicality, and performance assessment. Right at the onset of every<br />
project, we plan every step thoroughly: including the conceptual design,<br />
detailed engineering, on-site work, and acceptance.<br />
Our team of experts conducts thorough site surveys for every project that<br />
demands complex systems or the retrofitting of existing systems. These<br />
surveys allow us to accurately coordinate workflow, and to avoid interrupting<br />
on going facility operations.<br />
At <strong>Lifetech</strong>, we perform advanced computer-based engineering calculations<br />
to ensure that everything goes right from the very beginning. Advanced<br />
hydraulic calculations are performed accurately using professional software.<br />
The software generates easy-to-read reports, even for those with minimal<br />
engineering knowledge.
Our installation process goes above and beyond the simply adequate.<br />
We seek to adopt innovative installation techniques that keep up to<br />
pace with every technological advancement. Coordination between<br />
projects allows us to complete our work quickly and effectively.<br />
Our on-site supervisors make sure that the installation process goes<br />
smoothly and according to schedule, and maintains a high standard<br />
of quality.<br />
<strong>Lifetech</strong>’s installation team is comprised of highly-skilled technicians<br />
trained by the system manufacturers’ themselves to use high pressure<br />
piping tools. Precise installation makes our systems efficient and ensures<br />
that they are up to the task of protecting lives and property.<br />
Our installation team receives regular hands-on training in emerging<br />
fabrication technologies and applications. Continuous training allows<br />
our team to use the best technologies, speed up installations, minimize<br />
costs and increase the durability of systems. Scheduled Webinars with<br />
expert teams from system manufacturers help our technical teams<br />
reach industry standard quality.
Services<br />
Project Management/<br />
Maintenance<br />
It is equally important to keep the systems fit once installed.<br />
<strong>Lifetech</strong> does it all right from the beginning. Our maintenance<br />
Team schedules each and every visit to inspect each and<br />
every component of the system to make sure performance is<br />
not compromised in any manner. Maintenance team creates a<br />
log for entire system and verify all the devices are in ‘Originally<br />
Intended Position’ and always ready to protect life and<br />
property. Our teams are equipped with state-of-the-art<br />
trouble shooting equipment all the time to bring back the<br />
disarmed systems to action in minimum possible time.<br />
Specially trained to quickly identify issues, our service experts<br />
are intact with the knowledge and expertise to rapidly<br />
respond with the best solution based on the specific project<br />
and facility.
Wet System<br />
Dry System<br />
These are the simplest and most common type of<br />
sprinkler system installation. They involve relatively<br />
few components. A wet system provides fixed fire<br />
protection. It uses pipes that are always filled with<br />
pressurized water from a dependable source. During<br />
a fire, water is continuously discharged through<br />
sprinklers located directly over and close to the fire<br />
area. The fire is detected using closed, heat-sensitive<br />
automatic sprinklers. These are spaced out according<br />
to recognized installation standards. When activated,<br />
the sprinklers distribute the water over a specific area to<br />
control or extinguish the fire. This precise approach to<br />
extinguishment minimizes water damage.<br />
A dry-pipe system utilizes water as an extinguishing<br />
agent. Pipes run from the dry pipe valve, a remote<br />
valve located in a heated space, to the automatic<br />
fusible sprinklers. The pipes are filled with pressurized<br />
air or nitrogen. Dry pipe systems are used in cold<br />
areas where the water would freeze, partially or entirely,<br />
if kept in the pipes. The air in the pipes keeps the dry<br />
pipe valve in the closed position. The dry-pipe valve<br />
prevents water from entering the pipes until a fire<br />
causes one or more of the sprinklers to operate.<br />
Once this happens, the air escapes and the dry pipe<br />
valve opens. Water then enters the pipe, flowing<br />
through the open sprinklers and onto the fire.<br />
• Residential Occupancies<br />
• Commercial Establishments<br />
• Warehouses / Factories<br />
• Schools / Institutions<br />
• Production Facilities<br />
• Community Centers<br />
• Workshops / Garages<br />
• Valuable Artifacts<br />
• Aircraft Hangars<br />
• High-Hazard Installations<br />
• <strong>Comp</strong>uter Rooms<br />
• Libraries<br />
• Archives<br />
• Refrigerated Spaces
Deluge System<br />
Foam-water System<br />
These are fixed fire protection systems in which the<br />
pipe system remains empty until a valve, termed the<br />
deluge valve, opens in response to a fire. This releases<br />
pressurized water from open nozzles or sprinklers.<br />
Deluge systems are more complex than wet and dry<br />
pipe systems. Depending on its configuration, a deluge<br />
system can be activated hydraulically, pneumatically,<br />
electrically, manually, or by any combination of these<br />
means. But, in all cases, the deluge valve itself is activated<br />
hydraulically. When a detection device is activated, the<br />
deluge valve opensand water flows into the piping<br />
system. The water is discharged through all spray nozzles<br />
or sprinklers simultaneously.<br />
A foam-water system is composed of a special system of<br />
pipes connected to a source of foam concentrate and a<br />
water supply. The system uses appropriate discharge<br />
devices to control and/or extinguish fires which require a<br />
smothering and cooling agent. The piping system is<br />
connected to the water supply by a control valve. The<br />
valve is opened when automatic detection equipment,<br />
located in the same area, detect a fire. Foam-water<br />
systems are designed to distribute a foam-water solution<br />
onto a specific hazard area. Upon exhaustion of its foam<br />
concentrate supply, the system releases water until it is<br />
shut off manually. Some flammable products may require<br />
different types of foam.<br />
• Power Plants<br />
• Aircraft Hangars<br />
• Chemical Processing Facilities<br />
• Paints Storage<br />
• Fuel Storage Tanks<br />
• Gaseous Liquid Storage Facilities<br />
• Outdoor Transformers<br />
• Extraction plants<br />
• Flammable Liquid Storage<br />
• Refineries<br />
• Aircraft Hangars<br />
• Heliports<br />
• Jet Engine Test Facilities<br />
• Marine Applications
Carbondioxide System<br />
FM-200 System<br />
Carbondioxide was the first gas to be used as a fire<br />
extinguishing agent. It is a chemically-inert, electrically<br />
non-conductive and odorless gas. A Carbondioxide<br />
system includes detectors, a control unit, agent storage<br />
cylinders, piping and discharge nozzles. Carbondioxide<br />
extinguishes fires by reducing Oxygen levels to stop<br />
combustion. Carbondioxide systems have three<br />
settings: They can completely flood hazard areas<br />
(for unoccupied areas), protect processing and<br />
machinery areas, or be manually operable as a<br />
hand-hose system in emergency situations. In each<br />
of these cases, the duration and rate of agent<br />
discharge are customized.<br />
FM-200® is an industry-leading, eco-friendly,<br />
gas-based fire suppression system. It offers a<br />
halon-free alternative to the ozone-depleting<br />
Halon 1301. It is among the fastest fire protection<br />
systems available: It can extinguish chemical<br />
and electrical fires in under 10 seconds. FM-200<br />
systems limit damage, lower repair costs, and<br />
reduce downtime and, most importantly, increase<br />
personnel and property safety. The FM-200 agent<br />
is stored in liquid form in cylinders. It is pressurized<br />
with nitrogen, thus greatly reducing storage space.<br />
Therefore, the FM-200 is suitable for applications<br />
where space is limited.<br />
• Combustible Liquids<br />
• Liquefied Gases<br />
• Electrical Equipment<br />
• Smoldering Fires<br />
• Power generation<br />
• Cable Tunnels<br />
• Transformers<br />
• Data Processing Centers<br />
• Server Rooms<br />
• Telephone Switches<br />
• Process Control Rooms<br />
• Museums<br />
• Sophisticated Electronic Equipment<br />
• Hospitals
The 3M Novec 1230 Fire Protection Fluid used by this<br />
system is a next-generation halon alternative. It balances<br />
performance, human safety and environmental concerns.<br />
The Novec 1230 fluid can be effectively utilized to<br />
control fires, flood fire areas, and suppress explosions.<br />
It can be used in manned spaces. Because its usage<br />
concentration is much lower than its No Observable<br />
Adverse Effects level (NOAEL), the Novec 1230 Fire<br />
Protection Fluid is one of the safest, most viable<br />
halon alternatives. It is an effective extinguishing<br />
agent because of its zero electrical conductivity.<br />
In a storage tank fire protection system, fixed discharge<br />
devices are installed around the hazard. The discharge<br />
devices connect to pipes, which terminate a control valve,<br />
safe distance away from the hazard- normally outside a<br />
dike wall and the control valve is connected to main fire<br />
water line. The type of extinguishing agent to use is<br />
determined by the nature of the hazard. If engineered,<br />
installed and maintained correctly, a tank protection<br />
system will work reliably for many years. The system can<br />
be fixed or semi-fixed, depending on its location,<br />
intended application, and the type of the storage tank.<br />
• Data Processing Centers<br />
• Server Rooms<br />
• Telephone Switches<br />
• Process Control Rooms<br />
• Museums<br />
• Marine Applications<br />
• Oil and Gas industry<br />
• Liquefied Gas Storage Tanks<br />
• Hazardous Chemical Tanks<br />
• Oil Storage Tanks<br />
• Fuel Storage Tanks<br />
• Flammable Liquid Storage Tanks<br />
• Industrial Processing Vessels<br />
• LPG Storage Facilities
Water Mist System<br />
A water mist fire suppression system uses<br />
a fine mist to extinguish fires quickly. This system<br />
releases less water than a traditional wet<br />
sprinkler system does. The use of water means that<br />
the mist system is safe and non-toxic for both<br />
humans and the environment. A water mist system<br />
is suitable in any setting where water use must<br />
be limited. Water mist systems have 3 classes:<br />
class I refers to the range between 100 and<br />
200 μm, class II to 200-400 μm and class III<br />
to 400-1000 μm. Fire control and suppression<br />
by Water Mist is strongly related to the<br />
interaction between the sprayed flow and flames.<br />
A kitchen hood fire suppression system is a<br />
pre-engineered system that uses a wet chemical<br />
agent, stored air pressure, fixed nozzles and a fixed<br />
agent distribution network. The detection network,<br />
consisting of fusible links or detectors, automatically<br />
detects a fire. The system releases a low pH<br />
extinguishing agent. The agent travels through the<br />
hood and duct and onto the kitchen appliances.<br />
The agent distributes itself in the form of minute<br />
droplets, creating an insulating coat. This cuts off<br />
the oxygen supply to the source of the fire,<br />
preventing combustion from continuing and thus<br />
stopping the fire.<br />
• Machine Spaces<br />
• Diesel Generators<br />
• Power Plants<br />
• Gas Turbines<br />
• Museums<br />
• Highway Tunnels<br />
• Transportation<br />
• Commercial Cooking<br />
• Restaurants<br />
• Food Joints<br />
• Hotels<br />
• Military Bases<br />
• Hospitals<br />
• Universities
Conventional Fire Detection<br />
Addressable Fire Detection<br />
Conventional fire detection and alarm systems<br />
are suitable for the early detection of fires. They<br />
have very simple configurations. Due to their<br />
simplicity, conventional systems are most reliable<br />
and economical when used in small or medium-sized<br />
facilities. Conventional Systems are popular because<br />
they are user-friendly and easy to maintain. In its<br />
simplest configuration, a conventional system<br />
cannot pinpoint the exact location of a fire.<br />
However, a facility can be subdivided into definite<br />
areas or zones. For example, in a multistory building,<br />
each floor can represent a zone. Zoning allows<br />
the user to determine the specific location of the fire.<br />
Addressable fire alarm systems can quickly detect<br />
fires and identify their exact location. They are also<br />
easy to maintain. An addressable system is a flexible<br />
one. It can be configured for use in medium or large<br />
facilities, and can aid evacuation plans. Every<br />
device/unit connected to the system has its own<br />
unique address. When a device detects a fire, the<br />
main control panel displays the address of that device.<br />
This informs the user of the exact location of the<br />
fire, so it can be quickly extinguished. The addressable<br />
system’s ability to pinpoint the exact location of a<br />
fire saves valuable time and effort. Addressable system<br />
can be combined with fire fighter telephone system.<br />
• Residential Occupancies<br />
• Schools / Institutions<br />
• Banks / Business Centers<br />
• Community Centres<br />
• Warehouses / Factories<br />
• Libraries<br />
• Commercial Centres<br />
• Hospitals<br />
• Banks<br />
• Libraries<br />
• Data Centres<br />
• Museums<br />
• High Rise Buildings<br />
• Commercial Centres
Security Alarm System<br />
Access Control System<br />
A security alarm is a system designed to detect<br />
unauthorized entry into a building or area. Security<br />
alarms are used in residential, commercial, industrial, and<br />
military properties for protection against burglary (theft)<br />
or property damage, as well as personal protection<br />
against intruders. security alarm systems may also be<br />
combined with closed-circuit television and may<br />
interface to access control systems. Security Systems<br />
range from small noisemakers to multi-area systems with<br />
computer monitoring and control. The most basic<br />
alarm consists of one or more sensors to detect<br />
intruders, and an alerting device to indicate the<br />
intrusion.<br />
An access control system determines who is allowed to<br />
enter or exit, where they are allowed to exit or enter, and<br />
when they are allowed to enter or exit. It uses computers<br />
to solve the limitations of mechanical locks and keys.<br />
The electronic access control system grants access based<br />
on the credential presented. When access is granted,<br />
the door is unlocked for a predetermined time and the<br />
transaction is recorded. When access is refused, the<br />
door remains locked and the attempted access is<br />
recorded. The system will also monitor the door and<br />
alarm if the door is forced open or held open too long<br />
after being unlocked.<br />
• Commercial Banks<br />
• Financial Institutions<br />
• Military Facilities<br />
• Research Facilities<br />
• Correctional Facilities<br />
• Data Processing Centers<br />
• VIP Lounges<br />
• Commercial Banks<br />
• Financial Institutions<br />
• Military Facilities<br />
• Research Facilities<br />
• High Class Hotels<br />
• Data Processing Centers<br />
• Hospitals
CCTV System<br />
Intrusion Detection<br />
Closed-circuit television (CCTV) is the use of video<br />
cameras to transmit a signal to a specific place, on a<br />
limited set of monitors. It may employ point to point<br />
(P2P), point to multipoint, or mesh wireless links. CCTV<br />
systems may operate continuously or only as required<br />
to monitor a particular event. A more advanced form<br />
of CCTV, utilizing digital video recorders (DVRs),<br />
provides recording and extra features such as motion<br />
detection and email alerts. More recently, decentralized<br />
IP cameras, some equipped with megapixel sensors,<br />
support recording directly to network-attached storage<br />
devices, or internal flash for completely stand-alone<br />
operation.<br />
An intrusion detection system (IDS) is a combination of<br />
devices and software application that monitors property<br />
and facilities for malicious activities, illegal / forced<br />
entries or policy violations and produces reports to a<br />
management station. IDS come in a variety of<br />
configurations and approach, the goal of detecting<br />
suspicious traffic. There are network based (NIDS) and<br />
host based (HIDS) intrusion detection systems. Some<br />
systems may attempt to stop an intrusion attempt but<br />
this is neither required nor expected of a monitoring<br />
system. Intrusion detection systems typically record<br />
information related to observed events, notify security<br />
administrators and produce reports.<br />
• Commercial Banks<br />
• Airports / Railway Stations<br />
• Military Facilities<br />
• Research Facilities<br />
• High Class Hotels<br />
• Universities / Institutions<br />
• Hospitals<br />
• Military Installations<br />
• Airports & Cargo Facilities<br />
• Research Institutions<br />
• Large Scale Factories<br />
• Correctional Facilities<br />
• Courts<br />
• Government Assemblies
Customized solutions for<br />
Industrial Fire, Life-safety<br />
and Hazard Management
<strong>Lifetech</strong> 360°<br />
Engineering for Life!<br />
<strong>Lifetech</strong>-360 Consultancy Pvt Ltd<br />
5-9-30/5, Flat # 404/2, Paigah Plaza,<br />
Near Liberty X Roads, Basheer Bagh,<br />
Hyderabad - 500029, Telangana State, India<br />
Ph: +91-7995650712 / 7995650712<br />
e-mail: info@tech360degree.com<br />
website: www.tech360degree.com<br />
CIN: U74999TG2018PTC122790<br />
www.tech360degree.com