1.Application of Air Supply Heat Pump
–Eurostars EVI air supply warmth pumps are developed for home heating and cooling. Person can modify the working mode by operating the controller. CZPT starts/stops according to return drinking water temperature. When all rooms reach preset temperature by space thermostat, warmth pump will be turned off via linkage change.
–Broad Selection of Programs: these EVI reduced temperature heat pumps could satisfy the heating and cooling requirements of distinct places, these kinds of as villas, homes, faculties, factories, hotels, hospitals, spa centers, sauna facilities, greenhouses, flower gardens, farms, etc.
two.Eurostars Air Resource Heat Pump Functions:
1. Operating problem ranges from -25C to 43C
2. Emerson EVI scroll compressor
3. Drinking water HE: undertake plate kind warmth exchanger or tube in shell warmth exchanger
four. CZPTally defrosting perform
five. CZPT several protections and breakdown self-examine function
6. Undertake multifunction controller(circuit board, Liquid crystal display panel, temperature sensors)
CZPT specifics:
one. CZPT insulation for minimizing sound
two. Cabinet insulation for reducing sounds
3. Anti-vibration pad of compressor
four. CZPT pad of heat exchanger bracket
5. Thick insulation of heat exchanger to minimize heat decline
six. Thick insulation of fuel pipe to lessen warmth loss
seven. Every single wire line use distinct code, straightforward to fix
eight. Wiring diagram and error code be incorporated in guide, practical to put in and fix
three. Air Source Warmth Pump CZPT Information
Air Supply Warmth Pump Device(EVI Low Ambient Temp.Variety) (Heating&CZPT) | ||||||
Model | ESSA-05LHN | ESSA-05LHN | ESSA-05LHN | ESSA-05LHN | ||
2.5ES | 3ES | four.5ES | 5ES | |||
Functioning manner | Heating&CZPT | |||||
Power provide | 220V/50HZ | 380V/50HZ | 220V/50HZ | 380V/50HZ | ||
Heating | Air DB/WB: 7ºC/6ºC, h2o In/outlet: 40ºC/45ºC |
Heating ability (kW) | 7.six | 8.four | 14. | 15.2 |
Enter electricity(kW) | 2.32 | two.58 | 4.38 | four.75 | ||
Recent(A) | 11.1 | 4.7 | 21. | eight.7 | ||
COP(W/W) | 3.28 | three.26 | three.20 | three.twenty | ||
Water movement(mthree/h) | 1.seven | 1.9 | 3.1 | 3.four | ||
Air: -10ºC/ , Drinking water In/outlet: 40ºC/45ºC |
Heating capability (kW) | five.32 | five.88 | nine.eight | 10.64 | |
Enter electrical power(kW) | 2.twenty | two.forty five | four.sixteen | four.51 | ||
COP(W/W) | two.forty one | 2.40 | two.36 | two.36 | ||
Air: -20ºC/ , Drinking water In/outlet: 40ºC/45ºC |
Heating capacity (kW) | 4. | 4.four | seven.four | eight. | |
Input power(kW) | 2.09 | two.33 | 3.95 | four.29 | ||
COP(W/W) | 1.91 | one.89 | 1.86 | one.86 | ||
Air: -25ºC/ , Water In/outlet: 40ºC/45ºC |
Heating potential (kW) | three.9 | four.2 | 6.four | 7 | |
Input electricity(kW) | 2.35 | two.52 | four.40 | four.thirty | ||
COP(W/W) | one.sixty six | one.67 | 1.forty five | 1.sixty three | ||
CZPT | Air DB/WB: 35ºC/24ºC, h2o In/outlet: 12ºC/7ºC |
CZPT capacity (kW) | 6.eight | seven.six | 12.six | 13.7 |
Input energy (kW) | 2.39 | two.66 | 4.51 | four.89 | ||
Present (A) | 11.four | 4.8 | 21.6 | eight.9 | ||
COP(W/W) | two.86 | 2.eighty four | two.seventy nine | 2.80 | ||
Drinking water movement (m3/H) | 1.5 | one.7 | 2.eight | 3.1 | ||
Design | ESSA-10LHN | ESSA-10LHN | ESSA-10LHN | ESSA-15LHN | ||
five.5ES | 7ES | two*5ES | two*7ES | |||
Operating manner | Heating&CZPT | |||||
Electrical power supply | 220V/50HZ | 380V/50HZ | 380V/50HZ | 380V/50HZ | ||
Heating | Air DB/WB: 7ºC/6ºC, water In/outlet: 40ºC/45ºC |
Heating potential (kW) | seventeen.five | 19. | thirty.4 | 40.8 |
Input electrical power(kW) | 5.46 | five.ninety four | nine.five | 12.seventy five | ||
Present(A) | 26.one | ten.8 | 17.3 | 23.2 | ||
COP(W/W) | 3.two | three.2 | three.2 | 3.two | ||
H2o stream(m3/h) | three.9 | four.two | six.8 | 9.1 | ||
Air: -10ºC/ , H2o In/outlet: 40ºC/45ºC |
Heating ability (kW) | 12.twenty five | 13.3 | 21.28 | 28.56 | |
Enter electrical power(kW) | five.19 | five.64 | nine.03 | 12.eleven | ||
COP(W/W) | two.36 | two.36 | two.36 | 2.36 | ||
Air: -20ºC/ , H2o In/outlet: 40ºC/45ºC |
Heating capability (kW) | nine.2 | 10. | sixteen. | 21.4 | |
Enter power(kW) | 4.ninety three | five.36 | 8.57 | 11.51 | ||
COP(W/W) | one.86 | 1.86 | 1.86 | 1.86 | ||
Air: -25ºC/ , Water In/outlet: 40ºC/45ºC |
Heating potential (kW) | 7.5 | nine | 14 | 19 | |
Enter power(kW) | five.10 | five.eighty | 8.sixty | twelve.00 | ||
COP(W/W) | one.47 | one.55 | 1.sixty three | 1.fifty eight | ||
CZPT | Air DB/WB: 35ºC/24ºC, drinking water In/outlet: 12ºC/7ºC |
CZPT ability (kW) | fifteen.8 | 17.1 | 27.four | 36.7 |
Enter electricity (kW) | 5.sixty two | 6.12 | nine.79 | thirteen.13 | ||
Existing (A) | 26.9 | eleven.2 | 17.eight | 23.9 | ||
COP(W/W) | two.eighty | 2.79 | two.eighty | two.eighty | ||
Water stream (m3/H) | 3.5 | 3.8 | six.one | 8.two | ||
Product | ESSA-20LHN | ESSA-30LHN | ESSA-40LHN | |||
4*5ES | four*7ES | 4*9ES | ||||
Operating mode | Heating&CZPT | |||||
Electricity supply | 380V/50HZ | 380V/50HZ | 380V/50HZ | |||
Heating | Air DB/WB: 7ºC/6ºC, h2o In/outlet: 40ºC/45ºC |
Heating ability (kW) | 60. | seventy six. | 115 | |
Input electrical power(kW) | eighteen.seven | 23.seventy six | 35.9 | |||
Recent(A) | 34.1 | forty three.3 | sixty five.5 | |||
COP(W/W) | three.21 | 3.20 | 3.twenty | |||
Drinking water movement(mthree/h) | 13.four | seventeen. | 25.7 | |||
Air: -10ºC/ , H2o In/outlet: 40ºC/45ºC |
Heating capacity (kW) | 42 | 53.two | 80.5 | ||
Input electrical power(kW) | seventeen.seventy seven | 22.57 | 34.11 | |||
Present(A) | two.36 | 2.36 | two.36 | |||
Air: -20ºC/ , H2o In/outlet: 40ºC/45ºC |
Heating capability (kW) | 31.5 | 39.9 | sixty.four | ||
Enter energy(kW) | 16.88 | 21.44 | 32.forty | |||
Present(A) | one.87 | one.86 | one.86 | |||
Air: -25ºC/ , H2o In/outlet: 40ºC/45ºC |
Heating capability (kW) | 28 | 38 | |||
Input power(kW) | seventeen.twenty | 24.00 | ||||
Current(A) | one.63 | 1.fifty eight | ||||
CZPT | Air DB/WB: 35ºC/24ºC, water In/outlet: 12ºC/7ºC |
CZPT ability (kW) | fifty four. | 68.four | 103.five | |
Input energy (kW) | 19.26 | 24.47 | 36.98 | |||
Current (A) | 35.1 | 44.six | sixty seven.4 | |||
COP(W/W) | two.eighty | two.79 | 2.80 | |||
Water movement (mthree/H) | twelve.1 | fifteen.three | 23.one |
four.Air Supply Heat Pump Primary Components Introduction
No | Identify | Description |
one | CZPT | Model: CZPT/CZPT |
two | Air Warmth exchanger | Hydrophilic Aluminum foil and copper pipe with inner thread warmth exchanger |
three | Water Heat exchanger | Variety: Tube in shell, gain: thick copper pipe, sturdy good quality. Big diameter of drinking water stream: modest drinking water resistance. Thread coil: large warmth exchanging floor |
4 | Enlargement valve | Model: CZPT/CZPTa or other model, Sort: CZPTtronic kind |
five | 4 way valve | Manufacturer: SXIHU (WEST LAKE) DIS., most CZPT in China |
6 | Enthusiast | Blade: reduced sounds and large air stream. Motor: Axial variety, steady and big air movement |
seven | AC contactor | Brand name: EATON/FUJI/ Schneider,and so forth, sensible motion, secure quality |
eight | Controller | Liquid crystal display display screen, multi protections, remote manage, straightforward running |
5. EUROSTARS Warmth Pump Assortment:
(one) Drinking water resource heat pump
(2) Geothermal source heat pump
(three) Air source warmth pump, such as swimming pool heat pump
(4) EVI air resource warmth pump
(five) Break up warmth pump
(6) DC CZPT warmth pump
six.About US
We, EUROSTARS, which established in calendar year 2006, is a modern hi-tech enterprise, specializing in Heating Air flow Air Conditioning and CZPT CZPT investigation, improvement, creation, product sales and engineering providers.
Webiste one: http:///
Internet site 2: http:///
Instagram: EPeurostars_aircon_refrigeration
Facebook: EPpg/EurostarsCZPTR
Youtube EPchannel/UCFwKOPvrf0xSZdOzX0pB52A
seven.FAQ
Q:In contrast with other goods, what is the advantage of Eurostars warmth pumps?
a. High heating effectiveness
b. Low cost: compared with the fuel or gasoline furnace, the warmth pump can conserve 70% of the vitality.
c. CZPTal defense: there is no emission resulting from burning. The refrigerant for the heat pump is environmentally-pleasant refrigerant such as R410A, R407C, R134A which will not ruin the ozonosphere.
d. Safety: the operation of the warmth pump is secure and computerized.
e. Provide OEM/ODM services
Q:Why it can operate at -25ºC?
Because of the Improved Vapor Injection (EVI) technologies from CZPT compressor, EUROSTARS designed EVI fuel piping system and managing system, make EVI air source warmth pump can work stably in the lower temperature situation.
eight.Client visit us
nine.Air resource heat pump delivery or container loading
10.Installation instruction or set up photo, task pictures
A,Area selection of installation Heat pump
1). Warmth pump should be set up in a large place, and have good air stream situation.
2). Air inlet and outlet should be a clear street, the length from barrier to inlet and outlet need to be longer than 2m.
3). Set drain ditch or drain outlet, so that can drain drinking water simply.
4). The set up foundation or bracket need to be company, make certain heat pump work balancely.
5). Make sure heat pump is vertical, can’t be slanted.
6). Will not install warmth pump at the area in exactly where there is lots of pollutional and corrosive gasoline or sand or fallen leaves.
7). The installation area can not be around inflammable, flammable factor or fireplace.
8). Installation:
—The set up base can be concrete building, or steel bracket, and have to use anti-vibration rubber pad, And the surface need to be easy.
—The style of installation foundation can be in accordance to warmth pump bodyweight.
—The heat pump bottom should be set by bolt.
B,Pipe connection
The drain pipe and overflow pipe must be put in close to drain ditch or drain outlet, easy to drain, and put in drain water valve on drain pipe ahead of magnetic valve there ought to be services valve on h2o pipe.
If use plastic pipe (these kinds of as PPR pipe or Stomach muscles pipe), customers should contemplate pipe broaden and deal problem in between warmth pump and h2o tank.
Water offer valve and minimize-off valve perhaps need insulation (in accordance to local weather conditions condition),avoid frost crack.
C,Drinking water pipe technique set up
H2o pipe need to be straight, and the arrange should be sensible, minimize bend as minor as attainable. Decrease the drinking water pipe resistance.
There can not be leaking at any area of pipe.
Following all equipments and pipes installation concluded, users ought to examination drinking water pressure, and drive air out, drain dirty out, make positive h2o cycle technique is clean. Soon after confirm there is not any issue, then insulate all hot h2o pipes.
D,Energy offer wiring
220V warmth pump use one period energy offer, 380V warmth pump use a few period electrical power provide, wire line is 3phase 4lines, A B C connects reside line, N connects null line, E connect earth. Be certain not to connect N line to reside line of energy provide.
1).When fixing, please switch electricity offer at “off” side.
2).Power offer connecting method:make sure a equipment electrical power supply is cut off ahead of its set up is concluded. Install electricity provide change at appropriate area, Use rubber hole for wiring line in electric powered box.
Electrical power provide demand from customers:
220V rated voltage±10%
380V rated voltage±10%
frequency:50Hz rated frequency±2%
3).if power supply fluctuation is out of desire, make sure you never commence your warmth pump.