Dekon one of the professional manufacture and supplier for DC inverter VRF system in China. Here is the Dc inverter vrf installation instructions and tips.
This is a presentation regarding the introduction to the heating and cooling system technology called variable refrigerant flow systems. (non-commercial)
General overview of HVAC Technology
General overview of VRF Technology
Benefits of VRF
General overview of Refrigerant
General overview of Ton
General overview of Compressor
Q&A What is the effect of Low CHW Delta-T on Efficiency & Comfort
التأثير السلبي لإنخفاض فرق درجات حرارة المياه الباردة على كفاءة منظومة التكييف و مستويات الراحة لشاغلي المكان
Understanding HVAC systems is essential for its proper maintenance. Quarterly maintenance of your HVAC systems is important to extend the system’s lifespan and save hundreds of dollars on unexpected repairs. Regular maintenance of residential HVAC systems is essential when it comes not only to the proper function of boilers, furnaces, and AC units but also for better energy efficiency and in-home air quality. A properly maintained HVAC system can cut hydro costs from five to ten percent, as well as improving comfort and air quality.
For More info:
https://sierraair.ca/residential/
An explanation of the basic legislative requirements and how these are achieved using impulse ventilation
Application of impulse ventilation, both for carbon monoxide and for smoke clearance or smoke control
The advantages of impulse ventilation over traditional ducted extract systems
Use of CFD
Control systems used: carbon monoxide and heat detection systems
How impulse ventilation can be used to control smoke movement, allowing smoke control to be used, as part of a fire strategy, to compensate for the relaxation of other legislative requirements, e.g. travel distances
A case history of a particular project where travel distances were relaxed using impulse ventilation designed for smoke control
An explanation of how this project was validated using CFD and live fire tests
DEKON, one of the professional manufacture and supplier for VRF system in China. Having full DC inverter outdoor unit and multi selection for indoor units.
This is a presentation regarding the introduction to the heating and cooling system technology called variable refrigerant flow systems. (non-commercial)
General overview of HVAC Technology
General overview of VRF Technology
Benefits of VRF
General overview of Refrigerant
General overview of Ton
General overview of Compressor
Q&A What is the effect of Low CHW Delta-T on Efficiency & Comfort
التأثير السلبي لإنخفاض فرق درجات حرارة المياه الباردة على كفاءة منظومة التكييف و مستويات الراحة لشاغلي المكان
Understanding HVAC systems is essential for its proper maintenance. Quarterly maintenance of your HVAC systems is important to extend the system’s lifespan and save hundreds of dollars on unexpected repairs. Regular maintenance of residential HVAC systems is essential when it comes not only to the proper function of boilers, furnaces, and AC units but also for better energy efficiency and in-home air quality. A properly maintained HVAC system can cut hydro costs from five to ten percent, as well as improving comfort and air quality.
For More info:
https://sierraair.ca/residential/
An explanation of the basic legislative requirements and how these are achieved using impulse ventilation
Application of impulse ventilation, both for carbon monoxide and for smoke clearance or smoke control
The advantages of impulse ventilation over traditional ducted extract systems
Use of CFD
Control systems used: carbon monoxide and heat detection systems
How impulse ventilation can be used to control smoke movement, allowing smoke control to be used, as part of a fire strategy, to compensate for the relaxation of other legislative requirements, e.g. travel distances
A case history of a particular project where travel distances were relaxed using impulse ventilation designed for smoke control
An explanation of how this project was validated using CFD and live fire tests
DEKON, one of the professional manufacture and supplier for VRF system in China. Having full DC inverter outdoor unit and multi selection for indoor units.
Focus to Professional, MECO Fan coil units factory has been in fan coil units R&D and production since 2007. For more than 12 years non-stop focusing on fan coil units products, we have enlarged our range of products from cassette type to ceiling floor type, ceiling concealed type, high wall mounted type, free stand type, high esp ducted type, etc. If any of friends having project request, pls feel free to reach us.
FCU Thermostat for 2 pipe or 4 pipe FCU.
Smart WIFI app control available.
BMS Modbus application available.
BACnet application available.
ECHO control through Alexa available.
Different designs for selection.
EKON HOME ELECTRIC, Professional home automation supplier in China. We are FCU thermostat and UFH thermostat provider, we care your solutions to control your space comfort temperature. Our thermostat having models suitable 2 pipe or 4 pipe; with BMS Modbus or BACnet applications, with smart WIFI App controls; with Alexa or google home echo controls. Find more, pls visit ekonchina.com
Dekon , onf of the professional supplier and exporter for VRF system in China. Have exported to more than 30 different countries our products. Dekon vrf system brief introduction here just brief intro of our products DRV, any more info needed, pls visit us at dekon-china.com or chinavrf.com
DEKON VRF System
Catering to the global low-carbon trend, Dekon launches a new
product – DC Refrigerant Variable flow System central air-conditioning unit-DRV.
It comes from multiple energy-saving technologies and is featured in
the advanced energy-saving performance.
Here is the introduction page for DEKON VRF System.
VRF system also called VRF Air conditioner or VRF Units, in our factory we call it DRV, means DEKON Refrigerant Variable flow units. Dekon VRF System consist of VRF Outdoor unit, VRF Indoor unit, Y branches and control system. Here below we will make brief introduction in general about DEKON VRF System.
Product Lineup-Outdoor
Basic Modules-DRV-X Combination module
Independent modules-DRV -S Non-Combination module.
For more info, pls contact us by mail.
Dekon on of the most professional manufacture and factory for modular type ahu, can be selected upon project detailed request. We are one of the best factory for AHU in China, welcomes your coming inquiry or visit of our facilities.
Dekon Air handling unit, with double skin panel design. Canbe SS outer panel for seaside building applications.We also having purification high level AHU, welcomes your inquiry.
TOP 10 B TECH COLLEGES IN JAIPUR 2024.pptxnikitacareer3
Looking for the best engineering colleges in Jaipur for 2024?
Check out our list of the top 10 B.Tech colleges to help you make the right choice for your future career!
1) MNIT
2) MANIPAL UNIV
3) LNMIIT
4) NIMS UNIV
5) JECRC
6) VIVEKANANDA GLOBAL UNIV
7) BIT JAIPUR
8) APEX UNIV
9) AMITY UNIV.
10) JNU
TO KNOW MORE ABOUT COLLEGES, FEES AND PLACEMENT, WATCH THE FULL VIDEO GIVEN BELOW ON "TOP 10 B TECH COLLEGES IN JAIPUR"
https://www.youtube.com/watch?v=vSNje0MBh7g
VISIT CAREER MANTRA PORTAL TO KNOW MORE ABOUT COLLEGES/UNIVERSITITES in Jaipur:
https://careermantra.net/colleges/3378/Jaipur/b-tech
Get all the information you need to plan your next steps in your medical career with Career Mantra!
https://careermantra.net/
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
Online aptitude test management system project report.pdfKamal Acharya
The purpose of on-line aptitude test system is to take online test in an efficient manner and no time wasting for checking the paper. The main objective of on-line aptitude test system is to efficiently evaluate the candidate thoroughly through a fully automated system that not only saves lot of time but also gives fast results. For students they give papers according to their convenience and time and there is no need of using extra thing like paper, pen etc. This can be used in educational institutions as well as in corporate world. Can be used anywhere any time as it is a web based application (user Location doesn’t matter). No restriction that examiner has to be present when the candidate takes the test.
Every time when lecturers/professors need to conduct examinations they have to sit down think about the questions and then create a whole new set of questions for each and every exam. In some cases the professor may want to give an open book online exam that is the student can take the exam any time anywhere, but the student might have to answer the questions in a limited time period. The professor may want to change the sequence of questions for every student. The problem that a student has is whenever a date for the exam is declared the student has to take it and there is no way he can take it at some other time. This project will create an interface for the examiner to create and store questions in a repository. It will also create an interface for the student to take examinations at his convenience and the questions and/or exams may be timed. Thereby creating an application which can be used by examiners and examinee’s simultaneously.
Examination System is very useful for Teachers/Professors. As in the teaching profession, you are responsible for writing question papers. In the conventional method, you write the question paper on paper, keep question papers separate from answers and all this information you have to keep in a locker to avoid unauthorized access. Using the Examination System you can create a question paper and everything will be written to a single exam file in encrypted format. You can set the General and Administrator password to avoid unauthorized access to your question paper. Every time you start the examination, the program shuffles all the questions and selects them randomly from the database, which reduces the chances of memorizing the questions.
6. Indoor unit 2.Hoisting
Use level meter to keep the indoor unit horizontally .
Reduce the running noise
Avoid the condensate water spill from the water collector
Level meter
7. Indoor unit 2.Hoisting
Supports must be strong enough.
The supports should be full thread
booms, and their diameters should
be ≥ 10mm.
Full thread booms
4 Supports
for indoor
unit
8. Indoor unit 2.Hoisting
Dual nuts should be adopted to fix the indoor unit under the ceiling.
Dual nuts Single nut
9. Indoor unit 2.Hoisting
Pack the indoor unit with plastic bag after hoisting to protect them from dust
entering.
11. The outdoor unit should be placed neatly, and reserve enough space for
maintenance.
The outdoor unit should be installed in the place that is dry, well-ventilation
and close to the indoor units .
Outdoor unit 1.Location
13. If 2 rows of ODUs:
Outdoor unit 1.Location
We suggest: face to face
Easy maintenance
No air short-circuit
14. Good duct installation
If the outdoor unit need to side out of the wind by ducting work , it is essential to
remove out the wind grille.
Outdoor unit 1.Location
15. All the outdoor units in one combination should be installed within 5 meters
height difference.
We recommend all the outdoor units installed on the same level if the project
site conditions permit.
Outdoor unit 1.Location
16. The foundation can be made of channel steel or concrete.
Outdoor unit 2.Foundation making
Reserve the space for discharging condensate water from outdoor units.
17. Rubber anti-vibration pads are necessary to avoid vibration.
Rubber Pads
Outdoor unit 2.Foundation making
19. Piping 0.Pipe storing
For storing the copper pipes:
1. If pipes will be used soon, nozzle should be sealed by plastic bag or tape.
2. If pipes will be stored for a long time, the pipes should be charged into
0.2~0.5MPa Nitrogen and the nozzle should be sealed by welding.
21. Piping 2.Piping check
The permitted length and drop difference
Permitted length Pipe
Pipe
length
Pipe total length (Equivalent length)
≤20HP ≤800 m L1+L2+L3+…+
L8+L9
+A+B+C+…+I+J> 20HP ≤1000 m
Max. pipe length(m
)
Actual length ≤175m
L1+L6+L7+L8+L9+J
Equivalent
length
≤190m
Equivalent length from the first branch
to the farthest indoor unit ≤40m L6+L7+L8+L9+J
Drop
height
Drop height between indoor unit and
outdoor unit ≤90m
——
Drop height between indoor units ≤15m
24. Piping 2.Piping check
LdLcLbLa
LBLA
L1
L6
L2
L7 L8 L9
f g h i j
L3 L4 L5
a b c d e
Height difference between outdoor unit and indoor unit≤ 90 m
Height difference between indoor units ≤ 15 m
≤ 15m≤ 90m
25. Piping 2.Piping check
Select the correct branch joints according to the installation requirement.
26. Piping 3.Pipe hanging
The distance between the supports of the copper pipes.
When the liquid pipe and gas pipe are hung up together, it is determined by
the diameter of liquid pipe.
Diameter (mm) ≤ 20 20 ~ 40 ≥ 40
Distance (m) 1 1.5 2
Record the actual liquid pipe length for future reference when charging
additional refrigerant.
28. Piping 3.Pipe connection
When install the branch joint horizontally
A
15
°
15
°
A direction
Wrong
Correct
Horizontal
Avoid refrigerant distribution
unbalance.
29. Piping 3.Pipe connection
Keep enough distance:
1. Between two branch joints ≥1m
2. Between branch joints and indoor unit ≥0.5m
3. From the inlet or outlet of branch joint, there should be straight pipe
with length at least 0.5m
0.5m
30. Piping 3.Pipe connection
Why?
If the distance is not big enough, it maybe cause unwanted noise
The distribution of the refrigerant is not well balanced in this case
31. Piping 3.Pipe connection
Two branch joints are too close!
There must be no sharp bend (90ºangle )
within 0.5m away from the branch joint.
32. Piping 3.Pipe connection
Do not replace branch joint with T pipe or use the branch joint from other suppliers
->DEKON branch joint is necessary
33. Piping 3.Pipe connection
Requirement of welding:
When welding the copper pipe, nitrogen is necessary to protect the copper pipe.
The pressure of the nitrogen is 0.02 MPa
Charge the nitrogen to the copper pipe at the beginning of welding and only
when the copper is fully cooled down, the nitrogen can be removed
37. Piping 4.Flushing
Purpose: eliminating dust, water vapor and oxides caused when welding.
Note: the solid can not be eliminated, so please store the pipes carefully to
prevent the solid entering.
Method:
1. Flush the pipe with 0.5 MPa Nitrogen
2. Block all the nozzles of the pipes
3. Use your hand to block one of the nozzles
4. When the pressure is too high to block, then
remove your hand
5. Repeat the step 3 and 4 to each nozzle
6. After flushing, seal all the nozzles
Eliminate
Oxid
es
Mois
ture
Dust
38. Piping 4.Flushing
②
⑥ ⑤ ④ ③ ①
Procedures
From far to near (sequence: ①-②-③-④-⑤-⑥ )
Note
1. When flushing one pipe, the other pipes need to be sealed.
2. After flushing, remember to seal all the pipes.
39. Piping 5.Gas-tightness test
Before test, gas/liquid
stop valves of outdoor
unit should be closed
well
Exhaust the air in the
system by vacuum
pump
Charge Nitrogen
slowly from both gas
and liquid side at the
same time
Purpose: check the gas leakage of the system
Procedures:
Caution: the gas used must be Nitrogen, but Nitrogen is forbidden to charge
to the outdoor unit’s stop valve directly.
40. Piping 5.Gas-tightness test
Sequence of pressure test:
Small leakage check: 4.0
MPa more than 24 hours
3rd stage
Big leakage check: 1.5 MPa
more than 3 minutes
2nd stage
Large leakage check: 0.3
MPa more than 3 minutes
1st stage
41. Piping 6.Insulation
Prevent condensate
water adhere to the
gas pipe
Protect people from
hurt of high temp.
Avoid energy loss.
Purpose:
Caution: After finish the gastight test, we go on the insulation work of the
refrigerant pipe.
42. Piping 6.Insulation
Pipe diameter Thickness
Φ6.4~15.9mm ≥15mm
Φ15.9~38.1mm ≥20mm
Φ38.1~54.1mm ≥25mm
Insulation material
The insulation need to be thicker if the ambient is high temperature and
humidity.
43. The insulation of liquid pipe and gas pipe must be separate
The insulation work must be done to every part of the refrigerant pipes
Piping 6.Insulation
44. Piping 6.Insulation
Wrong Avoid the dust entering the pipe
Block the nozzle of the pipe when crossing the insulation material.
45. Piping 6.Insulation
The gap between two parts should be well insulated by additional insulation
material.
Insulation
Copper pipe
Wrong
46. Piping 7.Vacuum
Purpose:remove the air and water in the system.
Necessary tools:vacuum pump (displacement: 4L/s or more)
Vacuum degree: less than -755mmHg(-0.1MPa)
Caution: Do not open the valves of outdoor unit when vacuuming ,
and Vacuum dry from liquid side and gas side simultaneously
With check
valve
47. Piping 7.Vacuum
Connect to vacuum pump
When vacuum degree reach to
-0.1MPa(-755mmHg) , continue
vacuuming for another 1 hour
Observe whether the pressure changes
or not (more than 1 hour)
Stop vacuuming
Vacuum the system at least 2h
Outdoor unit
OFF OFF
Gas side
Liquid side
Vacuum steps:
48. Additional refrigerant charging procedures:
Note:
1. Charging excessive refrigerant will cause liquid harmer.
2. Record the actual amount of additional refrigerant for further reference.
Piping 8.Charge refrigerant
Calculate necessary amount of additional refrigerant according to
the diameter and length of liquid pipes1
Make sure the gastight test, vacuum dry, pipe installation has
been finished
2
Charge additional refrigerant to the outdoor unit from gas side
according to the calculation result in the 1st step
3
R410A
UP
49. Additional refrigerant charged volume:
Calculate the additional refrigerant according to the diameter and the length
of all liquid pipes connecting to outdoor and indoor units.
Piping 8.Charge refrigerant
Liquid pipe Size
R410A
kg/m
Φ 6.4 0.022
Φ 9.5 0.059
Φ 12.7 0.120
Φ 15.9 0.180
Φ 19.1 0.260
Φ 22.2 0.370
Φ 25.4 0.450
50. Piping 9.Drainage pipe
Condensate water volume (L/h) =
Indoor unit capacity (HP) × 2L/h
Select the diameter
according to the below table
Condensate water volume : V (L/h) I.D (mm) Thickness (mm)
V ≤ 14 Φ 25 3.0
14 < V ≤ 88 Φ 30 3.5
88 < V ≤ 175 Φ 40 4.0
175 < V ≤ 334 Φ 50 4.5
334 < V Φ 80 6.0
Selection steps:
51. Caution:the lean of main drainage pipe must be bigger than 1%
Note
1. If the lean < 1%,then select drainage pipe with bigger diameter
2. The drainage pipe should be independent with other water pipe
3. Never put the drainage pipe together with dirty water pipe
Piping 9.Drainage pipe
Exhaust outlet
Condensate pipe
≥ 1%
52. Discharge drainage water naturally (without drainage pump):
If the pressure at the connection of the drain pipe is negative, it needs to be
fixed a drainage trap.
A plug should be designed to make cleanning easily
Piping 9.Drainage pipe
50mm
50mm
plug
Main drainage pipe
53. Piping 9.Drainage pipe
Increase the height
for easy discharge
Discharge with drainage pump:
1. 4-way cassette indoor unit has built-in with drainage pump, its pumping
head is 1200mm at most
2. Drainage trap is not necessary when using the drainage pump
54. Piping 9.Drainage pipe
Note: with drainage pump
Height can not beyond the pump head of drainage pump
Well fixed for this part
57. Piping 9.Drainage pipe
The thickness of insulation material for condensing water pipe is 10mm.
Thin insulation Section of the insulation is too tight
58. Piping 9.Drainage pipe
Water leakage test
Check leakage of water pipe
After finished installation of drainage pipe, filled the pipe with water,
waiting for 24 hours to check whether there’s any leakage.
Check leakage from the indoor unit
Charge water from the check hole of indoor unit to check whether the
water can be exhausted smoothly or not
61. Wiring 1.DIP switch setting
Outdoor address setting
Setting address of outdoor unit through DIP switch SW01
1 2 Description
OFF OFF Master unit
OFF ON Slave 1
ON OFF Slave 2
ON ON Slave 3
SW01
14Hp
Slave 2
16Hp
Slave 1
18Hp
Master
62. Wiring 1.DIP switch setting
Check the Condensing Fan type setting DIP switch “SW02”
1 2 Definition
OFF OFF Dual DC Fan
OFF ON DC fan left, AC fan right
ON OFF AC fan right, DC fan left
ON ON Dual AC Fan
SW02
63. Wiring 1.DIP switch setting
Outdoor unit capacity setting
Check the unit capacity setting match the nameplate through DIP switch“ SW03”
SW03
1 2 3 Capacity
OFF OFF OFF 8HP
OFF OFF ON 10HP
OFF ON OFF 12HP
OFF ON ON 14HP
ON OFF OFF 16HP
ON OFF ON 18HP
ON ON OFF 20HP
64. Wiring 1.DIP switch setting
Outdoor unit type setting
SW04
1 2 3 Definition
OFF OFF OFF DRV Ⅲ
(Factory default)
65. Wiring 1.DIP switch setting
the quantity of outdoor and indoor unit lock setting
Lock the quantity of outdoor and indoor unit through DIP switch “SW05”
SW05
1 2 3 Definition
OFF OFF OFF Unlock
(Factory default)
ON OFF ON Lock
66. Wiring 1.Address setting
Indoor address setting by Remote controller
Indoor unit address
NO.
Methold
Press [Sleep] button 8 times within 5
seconds to enter into the interface of
remote parameter change;
Select “parameter NO.” as “1” to enter
the indoor unit addressing mode;
set “Indoor unit address NO.” as
required on site;
press “sending button” to send order;
When hearing buzzer once, it indicates
successful setting
67. Wiring 2.Power supply
Basic requirement
All wires, and electric devices must
be conformed to local standards
All wiring work must be done by
qualified person
Voltage range:
rated voltage
±10%
Independent
power supply
Capacity of
power device is
bigger enough
Well and
reliable PE line
68. Power supply box
Wiring 2.Power supply
Creepage breaker
/Manual switch
3-Phase
380/400/415V
Power supply for outdoor units
69. Wiring 2.Power supply
Power supply for indoor units
Notice:
All the indoor units which connected to one outdoor system must be connected to
the same power supply
70. Wiring 2.Power supply
Why should all the indoor units which combined in one system have same power
supply?
→ System is normally running.
→ Some indoor units lose power (plug out or power supply failure) .
→ These indoor units stop, but built-in expansion valves still keep former
opening degree, they can’t close.
→ The outdoor units and other indoor units are still running.
→ The liquid refrigerant flow into the stopped indoor units.
→ This unit’s evaporator will freeze, because their fans are stopped .
→ And the other indoor units can not get enough refrigerant distribution, so the
cooling performance drop down.
Even worse, the liquid refrigerant will directly suck back the compressor, which
cause liquid hammer, damage the compressor.
71. Wiring 2.Power supply
Creepage breaker selection
According to 1.5-2 times of the total rated current.
Manual switch selection
As the power is supplied independently, selecting the manual switch and
fuse capacity according to the total capacity.
Total capacity of outdoor units (HP) Manual switch (A) Fuse (A)
10~14 100 75
15~18 100 100
19~28 150 150
29~36 200 200
37~47 300 250
48~50 300 300
52~64 400 400
72. Wiring 2.Power supply
The spec. of the wire is selected
according to the max. total current of
outdoor units
The spec. of the
wire is selected
according to the
max. total current
of indoor units
L N
Indoor unit
Controller
L1L2L3N
73. Wiring 3.Signal wire
Between outdoor units in one combination
Between outdoor unit and indoor unit
A,BA,B
Master unit Slave unitSlave unit
A,B A,B
74. Wiring 3.Signal wire
1. Signal wire should be two core shielded twisted pair
2. Keep away from the strong power
3. Non-polar communication
4. Series connection
Key points
75. Wiring 3.Signal wire
Key points
5.Signal wire and refrigerant pipe should not be tied together.
77. Commission 1.Check before start
Power wire / Signal wire
Refrigerant pipe & insulation
Gastight & vacuum dry
1. All the electric wiring is finished?
2. Wire specification are correct?
3. Power wire are well insulation?
4. Well connection?
Additional refrigerant charge
Check valves
78. Commission 1.Check before start
1. Pipes diameters are correct?
2. Pipes are well insulation?
Power wire / Signal wire
Refrigerant pipe & insulation
Gastight & vacuum dry
Additional refrigerant charge
Check valves
79. Commission 1.Check before start
1. Gastight test has been passed?
2. Vacuum dry has been done?
Power wire / Signal wire
Refrigerant pipe & insulation
Gastight & vacuum dry
Additional refrigerant charge
Check valves
80. Commission 1.Check before start
Refrigerant has been charged correctly?
Power wire / Signal wire
Refrigerant pipe & insulation
Gastight & vacuum dry
Additional refrigerant charge
Check valves
81. Commission 1.Check before start
1. Stop valves of outdoor unit are opened?
2. All the fans rotate normally?
Power wire / Signal wire
Refrigerant pipe & insulation
Gastight & vacuum dry
Additional refrigerant charge
Check valves
83. Commission 2.Check Operation
Check if there’s any error code display
on the IDU or ODU?
Preheat
Error check
Trial operation
Operation test
Hand to user
85. Commission 2.Check Operation
1. Check indoor units:
Preheat
Error check
Trial operation
Operation test
Hand to user
Setting 17℃ in cooling mode
High speed
Running more than 4 hours
Check Temp.
-> Temp. difference between air intake
and outlet of each indoor unit should be
bigger than 8℃。
86. Commission 2.Check Operation
2. Check outdoor unit:
Discharge and suction
temperature of compressors
Pressure of systems
Running current
3. Any abnormal noise, vibration
4. Record the operation parameter
Preheat
Error check
Trial operation
Operation test
Hand over to user
87. Commission 2.Check Operation
System pressure and temperature check
R410A
OD35/-,ID27/19 OD43/-,ID32/23
High pressure (MPa) 2.8~3.0 3.4~3.8
Low pressure (MPa) 0.85~1.0 1.0~1.45
Discharge temp.(℃) 70~80 /
Suction temp.(℃) 11~14 /
Indoor air outlet (℃) 12~15 degree (T1 is around 21~27)
temp. difference
between return and
outlet (ΔT)
8~12
88. Commission 2.Check Operation
Daily operation and maintenance
explanation
Preheat
Error check
Trial operation
Operation test
Hand to user