Shanghai Airko

Products

No Category

Search

Friends links

Heat Recovery Ventilator

Cleanroom Air Handling Unit

Click image to view full size image

Product:	Views:343Cleanroom Air Handling Unit
Unit price:	Negotiable
MOQ:
Quantity:
Delivery date:	Since the payment date Days delivery
Valid until:	Long-term effective
Last updated:	2025-01-31 18:32

Details

Overview

Air Handling Unit (AHU) is a crucial component of heating, ventilation, and air conditioning (HVAC) systems, responsible for regulating and circulating air. AHUs are used in various applications, including commercial buildings, industrial facilities, hospitals, and residential complexes, to maintain indoor air quality and comfort.

Parameter

Cooling, water volume, water resistance

Cooling conditions: Inlet air dry bulb temperature 27℃, wet bulb temperature 19.5℃, inlet water temperature 7℃, outlet water temperature 12℃

Model	Two-row pipe			Four-row pipe			six-row pipe			eight-row pipe
Model	cooling(KW	Water volume(m³/h)	Water resistance (KPa)	cooling(KW)	Water volume (m h)	Water resistance (KPa)	cooling(kW)	Water volume (m³/h)	Water resistance (KPa)	cooling (KW	Water volume (m³/h)	Water resistance (KPa)
ZK-05	18.8	3.23	10.1	29.4	5.01	9.76	37.8	6.49	16.99	45.7	7.85	10.44
ZK-10	34.7	5.89	10.5	58.6	10.35	11.65	75.4	12.96	10.08	91.2	15.70	12.82
ZK-15	53.4	9.16	9.8	87.9	15.08	7.21	113.1	19.5	12.11	136.8	23.52	15.12
ZK-20	70.6	12.14	9.8	117.3	20.16	8.25	150.8	26.21	14.07	182.4	31.96	17.48
ZK-25	92.9	15.83	11.6	146.1	25.12	10.24	188.1	33.90	11.77	227.5	39.11	14.76
ZK-30	113.6	19.2	11.8	175.2	30.12	11.16	225.6	38.90	13.10	273.4	47.00	16.28
ZK-40	144.4	24.82	12.4	232.8	40.03	12.93	300.2	51.61	15.73	362.2	62.27	19.20
ZK-50	180.5	30.61	10.4	292.3	50.25	7.47	375.3	64.52	17.00	435.80	74.93	15.70
ZK-60	216.6	37.24	9.4	349.2	60.04	7.47	450.3	77.42	17.00	544.80	93.67	15.70
ZK-80	287.2	49.1	9.1	464.6	79.88	8.5	598.4	102.89	19.5	724.8	124.62	17.9
ZK-100	357.0	61.38	9.5	578.2	99.41	8.5	746.5	128.35	19.5	904.2	155.46	17.9
ZK-120	428.4	73.65	9.5	693.6	118.91	8.5	895.2	153.91	19.5	1084.8	186.51	17.9
ZK-160	591.2	101.65	11.2	921.6	158.48	10.3	1190.4	204.67	20.1	1443.2	255.93	32.4
ZK-200	740.1	127.25	12.8	1152.2	199.3	13.1	1488.1	255.86	26.4	1804.3	310.22	42.4

Note: The performance parameters of the unit at a headwind speed of 2.5m/s

Cooling condition correction factor

Correction Factor K1 for Cooling Capacity and Water Flow under Different Inlet Air and Water Temperatures

air temperature		Water temperature℃
Wet bulb Temperature	Dry bulb Temperature	5/10	6/11	7/12	8/13	9/14
17	19-27	0.83	0.76	0.67	0.62	0.57
18	20-30	0.94	1.85	0.76	0.68	0.58
19	21-31	1.07	0.97	0.88	0.79	0.71
19.5	21-33	1.15	1.06	1.00	0.86	0.78
20	22-33	1.20	1.10	1.03	0.90	0.81
21	23-36	1.34	1.24	1.14	1.03	0.93
22	24-39	1.48	1.38	1.28	1.18	1.07
23	25-42	1.63	1.53	1.43	1.32	1.22
24	26-45	1.79	1.69	1.59	1.47	1.36
25	27-48			1.75	1.64	1.53
26	28-48			1.92	1.81	1.70
27	29-48			2.09	1.98	1.87
28	30-50			2.26	2.16	2.05
29	31-52			2.40	2.32	2.2

Correction Factor K3 for Cooling Capacity and Water Flow under Different Inlet Air and Water Temperatures

Headwind speed	2.0	2.3	2.5	2.7	3.0	3.3	3.5
coefficient	0.81	0.92	1.0	1.07	1.17	1.26	1.32

Correction Factor K2 for Water Resistance under Different Inlet Air and Water Temperatures

air temperature		Water temperature℃
Wet bulb Temperature	Dry bulb Temperature	5/10	6/11	7/12	8/13	9/14
18	20-30	0.90	0.74	0.60	0.49	0.36
19	21-31	1.13	0.95	0.77	0.65	0.54
19.5	21-33	1.35	1.15	1.00	0.78	0.63
20	22-33	1.41	1.20	1.05	0.82	0.67
21	23-36	1.72	1.49	1.27	1.06	0.86
22	24-39	2.08	1.82	1.57	1.34	1.12
23	25-42	2.48	2.20	1.93	1.66	1.14
24	26-45	2.95	2.62	2.33	2.03	1.76
25	27-48			2.78	2.46	2.16
26	28-48			3.30	2.94	2.60
27	29-48			3.80	3.50	3.12
28	30-50			4.14	4.10	3.70
29	31-52			4.14	4.10	3.70

Correction Factor K4 for Water Resistance under Different Inlet Air and Water Temperatures

Headwind speed	2.0	2.3	2.5	2.7	3.0	3.3	3.5
coefficient	0.9	0.96	1.0	1.04	1.1	1.16	1.2

Ps:1.The above correction factors are determined based on the average values of various units. For small units (05~15), multiply by 0.95; for large units (50-200), multiply by 1.08.
2.The above correction factors are approximate values and are for reference only.

Correction under different wind speeds, inlet air temperature, and water temperature conditions:

Actual cooling capacity = Cooling capacity from Table 1 × K1 × K3
Actual water flow = Water flow from Table 1 × K1 × K3
Actual water resistance = Water resistance from Table 1 × K2 × K4

Example: Selecting YG-20 air conditioner, the cooling coil face wind speed is 2.5 m/s. According to Table 1, the cooling capacity is 150.8 kW, water flow is 26.21 m³/h, and water resistance is 14.07 kPa. Determine the actual cooling capacity, water flow, and water resistance when the inlet air dry-bulb temperature is 27°C, wet-bulb temperature is 21°C, inlet water temperature is 7°C, and outlet water temperature is 12°C.

Solution: From Table K1, the correction factor K1 = 1.14. From Table K2, the correction factor K2 = 1.27.
Therefore:

Actual cooling capacity (Q) = Standard condition cooling capacity × K1 = 150.8 × 1.14 = 171.91 kW
Actual water flow (V) = Standard condition water flow × K1 = 26.21 × 1.14 = 29.88 m³/h
Actual water resistance (P) = Standard condition water resistance × K2 = 14.07 × 1.27 = 17.87 kPa

Heating, water volume, water resistance

Heating conditions: air inlet temperature 15℃, water inlet temperature 60℃

Model	Two-row pipe			four-row pipe			six-row pipe			eight-row pipe
Model	Heating(KW)	Water volume (m/h)	Water resistance (KPa)	Heating (KW	Water volume (mh)	Water resistance (KPa)	Heating (KW)	Water volume (m³h)	Water resistance (KPa)	Heating(KW)	Water volume m/h)	Water resistance (KPa)
ZK-05	34.1	3.23	10.1	50.6	5.01	9.76	59.2	6.49	16.99	77.1	7.85	10.44
ZK-10	67.1	5.89	10.5	99.8	10.35	11.65	124.8	12.96	10.08	151.0	15.70	12.82
ZK-15	101.8	9.16	9.8	149.7	15.08	7.21	173.5	19.5	12.11	205.1	23.52	15.12
ZK-20	135.6	12.14	9.8	199.0	20.16	8.25	248.8	26.21	14.07	289.3	31.96	17.48
ZK-25	168.7	15.83	11.6	249.5	25.12	10.24	311.2	33.90	11.77	353.3	39.11	14.76
ZK-30	202.6	19.2	11.8	304.5	30.12	11.16	380.9	38.90	13.10	448.3	47.00	16.28
ZK-40	270.4	24.82	12.4	399.2	40.03	12.93	480.8	51.61	15.73	592.4	62.27	19.20
ZK-50	337.3	30.61	10.4	512.3	50.25	7.47	556.8	64.52	17.00	641.8	74.93	15.70
ZK-60	404.7	37.24	9.4	609.4	60.04	7.47	581.2	77.42	17.00	766.8	93.67	15.70
ZK-80	539.5	49.1	9.1	796.0	79.88	8.5	386.2	102.89	19.5	1006.0	124.62	17.9
ZK-100	674.5	61.38	9.5	985.1	99.41	8.5	1127.6	128.35	19.5	1272.3	155.46	17.9
ZK-120	808.9	73.65	9.5	1185.9	118.91	8.5	1362.5	153.91	19.5	1533.6	186.51	17.9
ZK-160	1077.8	101.65	11.2	1576.0	158.48	10.3	1688.4	204.67	20.1	2083.2	255.93	32.4
ZK-200	1346.2	127.25	12.8	1970.8	199.3	13.1	2032.7	255.86	26.4	2606.2	310.22	42.4

Note: 1. The unit's performance reference at a headwind speed of 2.5m/s
2. The coil is a dual-purpose coil for hot and cold applications

Functions and Benefits of AHUs

Air Filtration and Purification: AHUs filter and clean the air, removing contaminants and ensuring a healthy indoor environment.
Temperature Control: They provide precise control over heating and cooling, maintaining desired indoor temperatures.
Humidity Regulation: AHUs adjust humidity levels to enhance comfort and protect sensitive equipment or materials.
Ventilation: They introduce fresh air and expel stale air, reducing CO2 levels and maintaining air quality.
Energy Efficiency: Modern AHUs incorporate energy-saving features such as heat recovery, variable speed fans, and advanced control systems.

Blower:Blower bearings use lubricated precision ball bearings, and the outer seal ring of the bearing is made of polyamide rubber, which is resistant to high temperatures and can absorb vibration and mechanism noise. The impeller of the purification series air conditioner fan is made of high-quality steel plate (backward-inclined impeller is configured as required), which is more in line with the specific shape of aerodynamics, with high efficiency and low noise.

Surface cooler: The copper tube and aluminum sheet structure is adopted. The copper tube and aluminum sheet are tightly combined by mechanical or water pressure expansion, and tested by 1.6Mpa air pressure to ensure the minimum contact thermal resistance to achieve the best heat transfer effect. The condensate tray is made of high-quality steel plate or SUS304, double-layer filled with polyurethane foam, and the slope design is more conducive to the discharge of condensate, which has obtained the national patent

Filter: Primary, medium and high efficiency filtration sections are equipped with differential pressure gauges to monitor the initial and final resistance of the filter, providing a scientific basis for filter replacement. Primary, medium and high efficiency filters, as well as photohydrogen ion, high voltage electrostatic and electronic purification filters can be configured according to requirements.

FAQ

Q: Do you have testing and auditing services?

A: Yes, we can assist in obtaining specified product test reports and designated factory audit reports.

Q: What are your shipping services?

A: We provide vessel booking, cargo consolidation, customs clearance, preparation of shipping documents, and bulk delivery at the port of shipment.

Q: What are your delivery terms?

A: Our regular delivery term is FOB Shanghai. We also accept EXW, CFR, CIF, DDP, DDU, etc. We will provide you with the freight, and you can choose the most convenient and effective one for you.

Q: What modes of transportation can you provide?

A: We can provide sea, air, and express shipping.

Q: What is your after-sales service?

A: Our quality warranty period is two years. Any quality issues will be resolved to the customer's satisfaction.

https://www.airkohvac.com/

Inquiry