Bypass Safety Valve

Engineered for precision and durability, our valves ensure operational safety and system longevity in HVAC, industrial process, and fire protection applications. We invite engineers and buyers to review our specifications, request a quotation, and select GenTant as your trusted partner for safeguarding critical infrastructure. Contact us today to discuss your project requirements.

Product Feature and Application

The bypass safety valve provides critical overpressure protection by automatically opening at a preset pressure to divert excess flow. It features precise calibration, robust construction for high reliability, and a tamper-proof setting to ensure consistent safety performance.

Bypass safety valve is essential for safeguarding pumps, heat exchangers, and boilers in HVAC systems, industrial processes, and fire protection circuits. It prevents damage during sudden flow changes, system start-ups, or pressure surges, ensuring operational continuity and equipment longevity.

Product Parameter (Specification)

Technical Specification

Flow Parameters

Product Dimension

Structure

Working Principle

A safety valve is a special type of valve whose opening and closing components are kept normally closed by an external force. When the pressure of the medium inside equipment or pipelines rises above a specified value, it prevents the medium pressure inside the pipe or equipment from exceeding that value by discharging the medium outside the system. Safety valves belong to the category of automatic valves and are primarily used on boilers, pressure vessels, and pipelines to control pressure so it does not exceed the set limit, playing a vital protective role for personal safety and equipment operation.

Note: Safety valves must undergo a pressure test before they can be used.

Installation and operation instructions

Before installing a safety valve, the pipeline must be thoroughly cleaned and purged. This relates to whether the safety valve can work properly and fulfill its intended purpose, while also directly affecting its operational performance, sealing performance, and flow rate indicators.

Installation Position of the Safety Valve

When selecting the installation position for a safety valve, the following issues should be noted:

1.1 The safety valve should be installed vertically at the most pressure-sensitive point in the protected system or equipment, such as the top of a boiler;

1.2 The safety valve should be installed in a location that facilitates disassembly and periodic inspection and maintenance;

Installation of Safety Valve Inlet Piping

It is best to install the safety valve vertically and directly onto the boiler's connection pipe, without additional inlet piping. If inlet piping must be used, its inner diameter should not be smaller than the safety valve's inlet diameter, and it should be as short as possible to reduce pipeline resistance and the moment force exerted by the safety valve's discharge reaction force on the boiler joint.

Installation of Safety Valve Discharge Piping

To minimize the impact of the discharge piping on the safety valve's performance, the following points should be noted during installation:

3.1 The inner diameter of the discharge pipe should be larger than the outlet diameter of the safety valve to avoid excessive back pressure, which would affect the safety valve's operation;

3.2 The piping should be adequately supported to prevent pipeline stress (installation stress and thermal stress) from being added to the safety valve, which would affect the safety valve's performance;

3.3 In principle, it is better for each safety valve to use a separate discharge pipe. If two or more safety valves share a common header pipe (collecting pipe), the header pipe must have sufficient discharge area, and the change in flow direction where the discharge pipe enters the header pipe should be as small as possible;

3.4 The discharge pipe should have appropriate drain holes (weep holes) to prevent the accumulation of rain, snow, condensate, etc., inside the discharge pipe;

3.5 It is unreasonable for the weight of the discharge pipe to be borne by the safety valve's outlet branch pipe; instead, it should be supported by a dedicated support structure, which should be able to prevent the pipeline from moving or vibrating due to the reaction force when the safety valve discharges.

Guidance on Safety Valve Performance Adjustment

The safety valves provided by our company are tested at room temperature according to standard regulations (the factory set pressure is 3 bar). However, there is a temperature difference between the actual operating condition of the safety valve and the room temperature setting, which results in a deviation in the set pressure (opening pressure) between the room temperature setting and the actual operating condition. For this reason, safety valves with significant temperature differences must undergo on-site hot adjustment. The adjustment content generally involves the adjustment of the set pressure (opening pressure) and the adjustment of the discharge pressure.

Adjustment of Set Pressure and Discharge Pressure

Loosen the nut; within the specified working pressure range of the spring, rotate the screw to change the compression amount of the spring and adjust the opening pressure. When adjusting, first slowly increase the safety valve inlet pressure to make the valve pop open twice. If the opening pressure is too low (first reduce the valve inlet pressure), rotate the adjusting screw clockwise (Figure 1). If the opening pressure is too high, rotate the adjusting screw counter-clockwise (Figure 2). Once adjusted to the required opening pressure, tighten the nut (Figure 3).