“Fire protection system design involves the selection, sizing, and placement of mechanical components that make up a fire protection system. This includes the water supply, pumps, piping, valves and other components that are necessary to control and extinguish fires.”

Fire Protection System

Fire protection system design involves the planning, selection and installation of various fire protection measures to prevent or mitigate the effects of fires. Our design of a fire protection system typically begins with a comprehensive risk assessment to determine the potential hazards and risks associated with the building, structure or property. The design process involves considering the appropriate fire protection measures such as fire alarm systems, fire suppression systems and fire sprinkler systems. These systems are designed to detect, alert and extinguish fires or limit their spread to ensure the safety of occupants and minimize property damage.

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Our FIRE PROTECTION Services Include

  • Fire Protection System Planning and Consulting.
  • Fire Detection and Alarm System Design.
  • Automatic Fire Suppression System Design.
  • Fire Extinguisher Selection and Placement.
  • Emergency Lighting System Design.
  • Smoke Management System Design.
  • Fire Pump and Water Supply Design.
  • Coordination and Integration.
  • Maintenance and Testing.
  • Compliance and Regulatory Support.

Our Professionals in Fire Protection System

CODE COMPLIANCE

We ensure compliance with applicable fire codes, regulations & standards i.e. those set by the NFPA and local authorities. We are updated with the latest revisions and requirements to ensure the system design meets all necessary compliance obligations.

RISK ASSESSMENT

Our professionals conduct through fire risk assessments while identifying potential fire hazards and evaluating their potential impact. This assessment is very beneficial in determining the appropriate fire protection measures and system design for each specific project.

Design Performance

We utilize performance-based design to analyze fire scenarios and employ engineering judgment to meet performance objectives. This approach goes beyond prescriptive code requirements, allowing for tailored and optimized fire protection solutions.

MECHANICAL DESIGN STEPS

WATER SUPPLY

The first step in mechanical design is to identify an adequate water supply for the system. This may involve connecting to a municipal water supply, using an on-site water storage tank, or installing a fire pump to increase water pressure.

PIPING LAYOUT

Once the water supply is identified, the next step is to design the layout of the piping system. This includes determining the pipe size, length, and route of the piping, as well as identifying the location of valves, fittings, and other components.

SPRINKLER

Sprinkler heads, fire hoses, extinguishers, and other components must be selected and placed in accordance with local codes and standards, and in a way that maximizes their effectiveness in controlling and extinguishing fires.

PUMP SELECTION

Our fire pump selection is appropriate for the size and pressure requirements of the system and we ensure that it can provide the necessary flow rate and pressure to operate the sprinkler system.

HYDRAULIC CALCULATIONS

Our mechanical designer perform hydraulic calculations to ensure that the pressure drop in the piping system, determining the required flow rate and pressure at each sprinkler head, and verifying that the system meets the hydraulic demand requirements.

PIPE ROUTING

The routing and design of the fire protection systems’ piping network is planned. This includes determining the pipe sizes, routing, and connection points to ensure efficient water distribution throughout the building.

COMPLIANCE

Our mechanical designer ensures compliance with relevant codes, regulations, and standards throughout the design process, including drawings, calculations, and specifications, is prepared to support the design and to demonstrate compliance.

QUALITY CONTROL

The mechanical design undergoes rigorous quality control checks and internal reviews to ensure accuracy, functionality, and compliance with project requirements. Any necessary revisions or modifications are made before finalizing the design.