IJ type alkali resistant pump

NegotiableUpdate on 03/13

Model

Nature of the Manufacturer: Producers

Product Category

Place of Origin

Online Consult

Overview

Brand: Quanda Pump Valve Model: Material: Drive Method: Power: Head: Applicable Medium: Purpose:

Product Details

product overview

The IJ alkali pump is a successful product of China's "Seventh Five Year Plan" technology research and development. It is a standardized chemical process pump developed by our company by absorbing API610 8th edition and ASME B73.1-2001 standard technology, and upgrading and innovating on the basis of IH pump. The pump is a single-stage single suction cantilever structure designed with advanced hydraulic models, which has high efficiency. Improved by 5% compared to IH pumps, it is an energy-saving product. Adopt the sealing forms recommended by API610: mechanical seal, power seal, and packing seal, which users can freely choose.

Product Features

Strong reliability, easy maintenance, and high standardization. Materials include cast iron, cast steel, 304, 304, 304, 316, 316L, CD-4Mcu, 904904L, Hastelloy, etc. Temperature: T ≤ 200 ℃. Flow rate of 3.4~460m3/h, head of H=3.6~132m, speed of 1450-2900r/min

application

Widely used in the alkali industry, non-ferrous metallurgy, steel industry, acid industry, petroleum industry, synthesis and material industry, paper industry, fertilizer and pesticide industry, pharmaceutical industry, environmental water treatment and marine industry. Transport corrosive liquids such as alkaline solution, electrolyte, electroplating water, concentrated acid, bleaching solution, urea, etc. at a medium temperature of -20~+180 ℃.

Model Meaning

For example: IJ50-32-160

IJ alkali pump

50- Imported caliber (mm)

32- Outlet diameter (mm)

160- Outer diameter of impeller (mm)

Model number	Import	Export	internet traffic	lift	Equipped with motor		Impeller diameter mm
Pump inlet outlet impeller	mm	mm	(m3/h)	(m)	Equipped with motor
(mm)(mm)(mm)					model	Power (KW)
IJ50-32-125	50	32	12.5	20	Y90L-2	2.2	125
IJ50-32-125	50	32	6.3	5	Y801-4	0.55	125
IJ50-32-160	50	32	12.5	32	Y100L-2	3	160
IJ50-32-160	50	32	6.3	8	Y801-4	0.55	160
IJ50-32-200	50	32	12.5	50	Y132S1-2	5.5	200
IJ50-32-200	50	32	6.3	12.5	Y802-4	0.75	200
IJ50-32-250	50	32	12.5	80	Y160M1-2	11	250
IJ50-32-250	50	32	6.3	20	Y90S-4	1.5	250
IJ65-50-125	65	50	25	20	Y100L-2	3	125
IJ65-50-125	65	50	12.5	50	Y901-4	0.55	160
IJ65-50-160	65	50	25	32	Y132S1-2	0.5	160
IJ65-50-160	65	50	12.5	5	Y802-4	0.75	200
IJ65-40-200	65	40	25	50	Y132S2-2	7.5	200
IJ65-40-200	64	40	12.5	12.5	Y90S-4	1.1	250
IJ65-40-250	64	40	25	80	Y160M2-2	15	250
IJ65-40-250	65	40	12.5	20	Y100L1-4	2.2	125
IJ80-65-125	80	65	50	20	Y132S1-2	5.5	125
IJ80-65-125	80	65	25	5	Y802-4	0.75	160
IJ80-65-160	80	65	50	32	Y132S2-2	7.5	160
IJ80-65-160	80	65	25	8	Y90L-4	1.5	200
IJ80-50-200	80	50	50	50	Y160M2-2	15	200
IJ80-50-200	80	50	25	12.5	Y100L1-4	2.2	250
IJ80-50-250	80	50	50	80	Y180M-2	22	315
IJ80-50-250	80	50	25	20	Y100L2-4	3	315
IJ80-50-315	80	50	50	125	Y200L2-2	37	125
IJH80-50-315	80	50	25	32	Y132S-4	5.5	125
IJ100-80-125	100	80	100	20	Y160M1-2	11	160
IJ100-80-125	100	80	50	5	Y90L-4	1.5	160
IJ100-80-160	100	80	100	32	Y160M2-2	15	200
IJ100-80-160	100	80	50	8	Y100L1-4	2.2	200
IJ100-65-200	100	65	100	50	Y180M-2	22	250
IJ100-65-200	100	65	50	12.5	Y112M-4	4	250
IJ100-65-250	100	65	100	80	Y200L2-4	37	315
IJ100-65-250	100	65	50	20	Y132S-4	5.5	315
IJ100-65-315	100	65	100	125	Y280S-2	75	200
IJ100-65-315	100	65	50	32	Y160M-4	11	200
IJ125-100-200	125	100	200	50	Y225M-2	45	250
IJ125-100-200	125	100	100	12.5	Y132M-4	7.5	250
IJ125-100-250	125	100	200	80	Y280S-2	75	315
IJ125-100-250	125	100	100	20	Y160M-4	11	400
IJ125-100-315	125	100	100	32	Y160L-4	15	250
IJ125-100-400	125	100	100	50	Y200L-4	30	315
IJ150-125-250	150	125	200	20	Y180M-4	18.5	250
IJ150-125-315	150	125	200	32	Y200L-4	30	315
IJ150-125-400	150	125	200	50	YB250M-4	55	400
IJ200-150-250	200	150	400	20	YB225S-4	37	250
IJ200-150-315	200	150	400	32	YB225M-4	45	315
IJ200-150-400	200	150	400	50	YB280S-4	75	400

Fault	Reason	Solution method
1. The pump does not absorb water, and the pressure gauge pointer swings violently.	Insufficient irrigation and water intake, resulting in air leakage at the connection between the pipeline and the instrument.	Check if the bottom valve is leaking, fill it with water, tighten or repair the leak.
2water pumpNo water comes out, the vacuum gauge indicates high vacuum.	The bottom valve is not open or blocked, the resistance of the suction pipeline is too high, and the suction height is too high.	Check the bottom valve, replace the water pipe, and lower the suction height.
3. The pressure gauge has pressure, but it still does not release water.	The resistance of the outlet pipe is too high, the rotation direction is incorrect, the impeller is blocked, and the pump speed is insufficient.	Check or shorten the water pipe. Check the motor, remove any dirt from the impeller, and increase the pump speed.
4. The flow rate is lower than the design requirements.	The water pump is blocked, the sealing ring is worn too much, and the speed is insufficient.	Clean the water pump and pipeline, replace the sealing ring, and increase the pump speed.
5. The pump consumes too much power.	The packing gland is too tight and heats up, the impeller is worn, and the pump flow rate increases.	Adjust the tightness of the packing gland, check if the pump shaft is bent, replace the impeller, increase the water outlet resistance, and reduce the flow rate.
6. Mechanical seal leakage.	The friction pair is severely worn or the sealing surface is scratched.	Replace the mechanical seal and repair the sealing surface.
7. The sound inside the pump is abnormal and the pump is not producing water.	Excessive resistance in the suction pipe, air leakage in the suction pipeline, and high temperature of the conveyed liquid.	Check the suction pipe and bottom valve, block any leaks, reduce the suction height, and lower the water temperature.
8. The water pump vibrates and the bearings overheat.	The motor and pump are not concentric, and the bearings are short of oil or worn.	Adjust the coaxiality between the motor shaft and the pump shaft, add oil or replace the bearings.

Corrosion resistance of main materials for water pumps (for reference)

medium	concentration (％)	polypropylene		concentration (％)	A B C
medium	concentration (％)	25°C	50°C	concentration (％)	20°C	60°C
sulfuric acid	60	√		<30	√	Χ
nitric acid	25	√		20	√	Ο
hydrochloric acid	<36	√		<38	√	√
hydrofluoric acid	35	√		40	√	Χ
acetic acid	<80	√		<20	√	Ο
sodium hydroxide	100	√			√	√
Potassium dichromate	25	√			√	√
sewage		Χ			Ο	Χ
ethanol		√		<50	√	√
acetone		√		10	Ο
Tetrachloroethane		Ο			Ο	Χ
Freon 22		√			Ο	Ο
bleaching solution	CL13%	√		CL12.5%	Ο	Ο
Electroplating solution		√			Ο	Χ
Photographic liquid		√			√	√

medium	concentration (％)	stainless steel		concentration (％)	ceramics
medium	concentration (％)	25°C	50°C	concentration (％)	25°C	50°C
sulfuric acid	<5	√	Χ		△	△
nitric acid	70	△	√		△	△
hydrochloric acid		Χ			△	△
hydrofluoric acid		Χ		0~100	Χ
acetic acid	<20	√	√		△	△
sodium hydroxide	70	√	√		Ο	Χ
Potassium dichromate	40~60	△	△	10~20	△	△
sewage		Ο			△	△
ethanol		△	√		△	△
acetone		△	△		△
Tetrachloroethane	50	△	△		△	△
Freon 22		△			△	△
bleaching solution	CL12%	Χ			△	△
Electroplating solution					△	△
Photographic liquid		△			△	△

Note: △ is excellent; √ is good; Ο is usable, but has obvious corrosion; Severe corrosion, not applicable.

PVDFThe physical and mechanical properties

performance	unit	according to
density	g/cm3	1.75-1.79
Ratio	cm3/g	0.56-0.75
Melting point range	0c	155-170
Refractive index	n25D	1.42
Mold Shrinkage	%	2-3
Tensile strength (yield)	Mpa	28-41
Stretching Strong Hair (Fracture)	Mpa	31-52
Elongation (fracture)	%	100-400
Impact strength (without gaps)	KJ/m	107-214
compressive strength	Mpa	55-69
Hardness (Shore D)		70-80
wear resistant	mg/1000r	7.0-9.0
Ultimate Oxygen Index (l0 I)	%	44
burning rate		V-D
resistivity	u194	1.0x10 15
Common dielectric numbers	10 31 CYCles	9.7

polyvinylidene fluoride(PVDF)Chemical resistance performance

Chemical media	concentration (％)	Maximum operating temperature ℃	Chemical media	concentration (％)	Maximum operating temperature ℃	Chemical media	concentration (％)	Maximum operating temperature ℃
hydrochloric acid	36	135	Hydrogen hydroxide	<10	85	ethanol		135
sulfuric acid	<60	120	Hydrogen hydroxide	50	50	ether		50
sulfuric acid	80-93	95	Ammonium carbonate oxide		110	formaldehyde	37	50
sulfuric acid	90	65	Calcium carbide oxide		135	acetone	10% aqueous solution	50
nitric acid	<50	50	Sodium Carbonate	aqueous solution	135	hydrazine	aqueous solution	95
phosphoric acid	<85	135	sodium bicarbonate	aqueous solution	120	benzene		75
phosphoric acid	85	110	ammonia		110	aniline		50
acetic acid	10	110	salt water		135	toluene		85
acetic acid	80	80	sodium hydrogen phosphate	aqueous solution	120	phenol		50
acetic acid	100	50	calcium phosphate	aqueous solution	135	Chlorobenzene		135
trichloroacetic acid	<10	95	calcium oxide	aqueous solution	135	naphthalene		95
trichloroacetic acid	50	50	Potassium oxide	aqueous solution	135	Methyl Chloride		135
oxalic acid		50	Ammonium oxide	aqueous solution	135	chloroform		50
Benzenesulfonic acid	aqueous solution	50	ferric chloride	aqueous solution	135	carbon tetrachloride		135
hydrofluoric acid	40-100	95	ferrous sulfate	aqueous solution	135	Ethyl Chloride		135
hydrofluoric acid	40	120	ammonium sulphate	aqueous solution	135	1.2 Trichloroethane		135
Hydrobromic acid	50	130	ammonium sulphate	aqueous solution	135	1.1.2 Trichloroethane		65
Peroxyacids	10	95	sodium nitrate	aqueous solution	135	Tetrachloroethane		120
Peroxyacids	70	50	ammonium phosphate	aqueous solution	135	vinyl chloride		95
NaClO	6-15	95	urea	aqueous solution	120	TRICHLOROETHYLENE		135
Potassium chlorate		100	carbon dioxide		80	dichloroethylene		110
chromic acid	<40	80	chlorine dioxide		75	natural gas		135
chromic acid	50	50	chlorine dioxide		65	fuel oil		135
Potassium permanganate		120	chlorine	element	95	paraffin oil		120
hydrogen peroxide	<30	95	bromine	element	65
Sodium Peroxide		95	iodine	element	65

Corrosion Performance Table of Fluoroplastics(For reference only)

		Temperature, ℃
medium	Concentration%	25	200	medium	Concentration%	Temperature, 200 ℃
sulfuric acid	0-100	√	√	formic acid		√	√	√
Oleum		√	√	Acetic acid (Acetic acid)	0-Ice	√	√	√
nitric acid	0-100	√	√	acetic acid		√	√	√
Oleum		√	√	propionic acid		√	√
hydrochloric acid		√	√	Acrylic acid		√
phosphoric acid		√	√	Acrylic anhydride		√	√	√ (boiling point)
hydrofluoric acid		√	√	methacrylic acid		√	√	√ (boiling point)
Hydrobromic acid		√	√	butyrate		√	√	√
Hydroiodic acid		√	√	bitter		√	√	√
hydrocyanic acid		√	√	lauric acid		√	√	√
nitrous acid		√	√	palmitic acid		√	√	√
nitrous acid		√	√	stearic acid		√	√	√
chloric acid		√	√	oleic acid		√	√	√
hypochlorous acid		√	√	linoleic acid		√	√	√
perchloric acid		√	√	abietic acid		√	√	√
Tetraphosphate		√	√	fatty acid		√	√
carbonic acid		√	√	chloroacetate		√	√	√
chromic acid		√	√	lactic acid		√	√	√
silicic acid		√	√	Oxalic acid (oxalic acid)		√	√	√
boric acid		√	√	fumaric acid		√	√	√
arsenic acid		√	√	citric acid		√	√	√
Selenate		√	√	nicotinic acid		√	√	√
Fluosilicic acid		√	√
fluoboric acid		√	√
Chlorosulfonic acid		√	√
aqua regia		√	√
mixed acid		√	√

medium	Concentration%	Temperature, 200 ℃
sodium hydroxide		√
potassium hydroxide		√
ammonium hydroxide		√
Magnesium hydroxide		√
calcium hydroxide		√
Aluminum hydroxide		√
Barium hydroxide		√
ferric hydroxide		√
ferrous hydroxide		√
nickel salt		√
Nickel Sulfate		√
Nickel nitrate		√
Nickel chloride		√
Zinc salt		√
zinc sulfate		√
zinc nitrate		√
Zinc Chloride		√