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/ valves / check valve / Lift Check Valve / GLH41W Axial Flow Check Valve

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Mark Classification of Fluid products

GLH41W Axial Flow Check Valve
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GLH41W Axial Flow Check Valve

Model：GLH41W-150LB/GLH41W-300LB/GLH41W-600LB/GLH41W-900LB/GLH41W-1500LB/GLH41W-2500LB
Specification：2"-36"
Temperature：≤450℃
Medium：water,oil,steam

Pressure：CL150 - 2500LB
Connection method：flange
Driving method：automated
Material：Carbon Steel,Stainless Steel, DuplexSS,Monel, AL-Bronze

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Product Overview
Performance Data
Size Weight

Overview

The axial flow check valve is an energy-saving check valve featuring a streamlined disc design that moves linearly along the pipeline axis for automatic opening and closing. It typically adopts a flanged or wafer connection. The valve body is mainly made of cast steel, stainless steel or ductile iron, with its internal disc performing axial reciprocating motion under the assistance of a flow guide and a spring. This valve can be installed either horizontally or vertically. When the medium flows in the forward direction, it pushes the disc to open along the axis, providing a completely straight-through flow path with extremely low pressure loss. When the medium stops or flows backward, the disc quickly returns to its closed position under spring force and reverse medium pressure, offering reliable sealing with minimal water hammer impact. It is specifically designed for piping systems requiring low flow resistance and high-frequency opening and closing. Widely used in long-distance pipelines, water injection systems, petrochemical plants, seawater desalination and similar projects, it serves as a key protective device ensuring efficient and stable system operation.

GLH41W Axial Flow Check Valve

Minimizes damage caused by water hammer in pipelines.
Eliminates flutter, reducing the likelihood of sudden valve failure in reciprocating compressor applications.
Protects critical equipment from costly damage caused by reverse flow.
Low pressure drop, energy-saving and environmentally friendly.
Utilizes the fast dynamic response of the axial flow check valve to reduce reverse flow velocity.

GLH41W Axial Flow Check Valve structure diagram

Parts Name Material List

序号NO.	部件名称Part name	材料Materials
1	阀体Body	Carbon Steel,Stainless Steel, DuplexSS,Monel, AL-Bronze
2	扩散器Diffuser
3	阀瓣Disc
4	轴套Bearing	Stainless Steel,Dulex SS,Monel, AL-Bronzel
5	弹簧Spring	SS316,InconelX-750, Inconel 718
6	阀座Seat	Mefal To Metal

性能规范表Performance Specification
公称压力Nominal Pressure	2-42(150LB-900LB)	Mpa
强度试验压力Shell Test	3-63
密封试验压力Seal Test	2.2-46.2
适用温度Suitable Temp.	≤450	℃

Dimensions Standard Requirements

1. The structural length of the valve shall conform to the standard ASME B16.10.

2. The connecting flange shall conform to the standard ASME B16.50.

GLH41W Axial flow check valve View Drawing

GLH41W Axial flow check valve Dimensions Table

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L(mm)
			RF	RTJ
CLASS150 PN20	2	RF	203	-	14
	3	RF	241	-	24
	4	RF	292	-	37
	6	RF	356	-	65
	8	RF	495	-	115
	10	RF	622	-	184
	12	RF	699	-	275
	14	RF	787	-	367
	16	RF	864	-	515
	18	RF	978	-	580
	20	RF	978	-	810
	24	RF	1295	-	1152
	30	RF	1524	-	2340
	36	RF	1956	-	3550

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L (mm)
			RF	RTJ
CLASS300 PN50	2	RF	267	-	18
	3	RF	318	-	34
	4	RF	356	-	57
	6	RF	445	-	105
	8	RF	533	-	175
	10	RF	622	-	270
	12	RF	711	-	365
	14	RF	838	-	490
	16	RF	864	-	662
	18	RF	978	-	910
	20	RF	1016	-	1180
	24	RF	1346	-	1785
	30	RF	1594	-	2810
	36	RF	2083	-	4376

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L(mm)
			RF	RTJ
CLASS600 PN110	2	RF/RJ-23	292	295	24
	3	RF/RJ-31	356	359	44
	4	RF/RJ-37	432	435	76
	6	RF/RJ-45	559	562	167
	8	RF/RJ-49	660	664	280
	10	RF/RJ-53	787	791	445
	12	RF/RJ-57	838	841	580
	14	RF/RJ-61	889	892	715
	16	RF/RJ-65	991	994	1060
	18	RF/RJ-69	1092	1095	1442
	20	RF/RJ-73	1194	1200	1840
	24	RF/RJ-77	1397	1407	2513
	30	RF/RJ-95	1651	1664	4564
	36	RF/RJ-98	2083	-	6360

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L mm)
			RF	RTJ
CLASS900 PN150	2	RF/RJ-24	368	371	39
	3	RF/RJ-31	381	384	63
	4	RF/RJ-37	457	460	92
	6	RF/RJ-45	610	613	197
	8	RF/RJ-49	737	740	390
	10	RF/RJ-53	838	841	560
	12	RF/RJ-57	965	968	870
	14	RF/RJ-62	1029	1038	1104
	16	RF/RJ-66	1130	1140	1407
	18	RF/RJ-70	1219	1232	1960
	20	RF/RJ-74	1321	1334	2422
	24	RF/RJ-78	1549	1568	3661

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L(mm)
			RF	RTJ
CLASS1500 PN260	2	RF/RJ-24	368	371	39
	3	RF/RJ-35	470	473	67
	4	RF/RJ-39	546	549	121
	6	RF/RJ-46	705	711	246
	8	RF/RJ-50	832	841	421
	10	RF/RJ-54	991	1000	730
	12	RF/RJ-58	1130	1146	1250
	14	RF/RJ-63	1257	1276	2114
	16	RF/RJ-67	1384	1407	3010
	18	RF/RJ-71	1537	1559	3922
	20	RF/RJ-75	1664	1686	5124
	24	RF/RJ-79	1943	1972	6962

Pressure Rating ASME	Nominal Size NPS	End Connection Facing	API6D Standard Type		Weight Kg
			L (mm)
			RF	RTJ
CLASS2500 PN420	2	RF/RJ-26	451	454	54
	3	RF/RJ-32	578	584	120
	4	RF/RJ-38	673	683	196
	6	RF/RJ-47	914	927	487
	8	RF/RJ-51	1022	1038	743
	10	RF/RJ-55	1270	1292	1173
	12	RF/RJ-60	1422	1445	1750

Other valve products you may need

H71H Wafer-Type Lift Check Valve

Model：
H71H-10C/H71H-16C/H71H-25C/H71H-40C/H71H-10P/H71H-25P/H71H-40P
Specification：
DN15-DN200
Pressure：
PN10-PN40
Material：
WCB、Stainless Steel
H41W Lift Check Valve

Model：
H41W-25I/H41W-40I/H41W-64I/1H41W-0I/H41W-25P/H41W-40P/H41W-64P/H41W-10P
Specification：
DN15-200
Pressure：
PN25,PN40,PN64,PN10
Material：
Stainless Steel,carbon steel,Cr-Mo-V Steel
H41H Forged Steel Lift Check Valve

Model：
H41H-16P/H41H-25P/H41H-10C/H41H-16C/H41H-40P
Specification：
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Pressure：
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Material：
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Complete Guide to Check Valve Selection and Installation: Detailed Explanation of Principles, Selection, and Key Construction Points

Complete Guide to Check Valve Selection and Installation: Detailed Explanation of Principles, Selection, and Key Construction Points Check valves, as crucial safety components in pipeline systems, are essential for preventing medium backflow and ensuring safe system operation. This article will provide you with a comprehensive guide to the selection and installation of check valves.

1. Operating Principle and Classification of Check Valves 1.1 What is a Check Valve?

Check valves, also known as one-way valves or non-return valves, belong to the category of automatic valves. Their working principle is to achieve opening and closing through the flow force of the medium itself. Their core function is to prevent the reverse flow of pipeline medium and ensure one-way flow.

1.2 Main application scenario: foot valve (a special type of check valve) at the water pump suction inlet

Various pipeline systems requiring unidirectional flow of medium

Industrial settings where accidents caused by medium backflow are to be prevented

II. Selection Criteria and Guidelines for Check Valves 2.1 Basic Selection Principles Medium Adaptability: Suitable for clean medium conditions, not recommended for pipelines containing solid particles or high viscosity media.

2.2 Selection of pipeline size (DN) based on pipeline size. Recommended valve types. Applicable pressure range: DN<50mm. Butterfly check valve, vertical lift check valve, diaphragm check valve. Low-pressure environment: 50mm

Advantages: Effectively eliminates the water hammer phenomenon

Limitations: Subject to temperature and pressure constraints, suitable for low-pressure and normal-temperature pipelines

Applicable scenario: Water supply pipelines prone to water hammer

Slow-closing check valve:

Slow-closing swing check valve

Slow-closing butterfly check valve

Applicable scenario: pipeline systems that require minimal or no water hammer impact when shut down

III. Installation specifications and construction requirements for check valves 3.1 Preparatory work before installation Appearance inspection:

Check the valve nameplate information to ensure compliance with the GB 12220 "General Valve Marking" standard

Check the integrity of the valve and confirm that it is undamaged

Pressure test requirements:

If the working pressure exceeds 1.0 MPa or the main pipe shut-off valve is involved, a pressure test must be conducted

Strength test: Nominal pressure × 1.5, duration ≥ 5 minutes, no leakage is considered as qualified

Tightness test: nominal pressure × 1.1, determine the duration according to GB 50243 standard

3.2 Installation location and direction: Strictly follow the design drawings to determine the location, height, and inlet and outlet directions

Flow direction indicator: Ensure that the flow direction of the medium is completely consistent with the direction indicated by the arrow on the valve body

Pipe support:

It is prohibited to let the check valve bear the weight of the pipeline

Large check valves must be equipped with independent support structures

Avoid direct impact of piping pressure on the valve

3.3 Lift check valves are required for specific types of installations:

Vertical flap type: It must be installed on a vertical pipeline

Horizontal flap type: It must be installed on a horizontal pipeline

Swing check valve:

Ensure that the valve disc's rotating shaft is in a horizontal position during installation

Special attention should be paid to the flow direction of the medium during inclined installation

IV. Common Installation Errors and Precautions 4.1 Example of Incorrect Installation: Installing a Vertical Lift Check Valve on a Horizontal Pipe

The valve flow direction is reversed

Large valves have no independent support

Pressure testing was not conducted according to specifications

4.2 The selection and installation location of check valves should be considered during the design phase of the professional advice system

Provide complete operating condition parameters to the supplier during procurement to obtain professional selection advice

For complex systems, it is recommended to consult a professional valve engineer

Conduct regular maintenance and inspection to ensure the check valve operates in normal condition

5. Maintenance points: Regularly check whether the valve can be opened and closed flexibly

Monitor for abnormal sounds, such as water hammer impact

Check the sealing performance to prevent internal leakage

Lubricate the moving parts to ensure normal operation

The correct selection and installation of check valves are crucial for ensuring the safe operation of pipeline systems. Following the selection guidelines and installation specifications provided in this article can prevent various accidents caused by medium backflow, extend the service life of valves, and reduce maintenance costs.

In practical applications, it is recommended to consider specific engineering requirements and medium characteristics, and if necessary, consult professional valve technicians to ensure the optimization of the selection and installation plan.