VRV IV sets the standard …again - Daikin
VRV IV sets the standard …again - Daikin
VRV IV sets the standard …again - Daikin
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People are becoming more and more aware of <strong>the</strong> cost of heating. Traditional heating systems<br />
and boilers use fossil fuels, making <strong>the</strong>m an expensive and not sustainable option for <strong>the</strong><br />
environment. Nobody wants to waste <strong>the</strong>ir money. Since approximately two thirds of <strong>the</strong><br />
heat generated by <strong>the</strong> <strong>Daikin</strong> heat pump systems, is free of charge, <strong>the</strong> perfect solution is just<br />
around <strong>the</strong> corner. Moreover, since heat pumps consume less energy than traditional heating<br />
systems, <strong>the</strong>y also generate less CO 2 emissions.<br />
Air to water and air to air heat pumps use energy from renewable sources: <strong>the</strong> ambient air.<br />
These energy sources are renewable and inexhaustible. Of course, heat pumps also need<br />
energy to function (mostly electricity), but increasingly this electricity can also be generated<br />
from renewable energy sources (solar energy, wind energy, hydropower, biomass)<br />
It is no surprise that people throughout Europe are becoming aware of new heating<br />
technology. In less than a decade practically all properly insulated buildings from Italy to<br />
Norway will be heated with heat pumps. Millions of heat pumps have already been installed<br />
in residential and commercial applications. So… why wait?<br />
95% of our air conditioning equipment can heat and/or cool and thus are heat pumps.<br />
The products in this chapter are optimised heating solutions as <strong>the</strong>ir primary scope and<br />
purpose is heating.<br />
HEATING<br />
AIR TO WATER HEAT PUMPS 18<br />
<strong>Daikin</strong> Al<strong>the</strong>rma low temperature 20<br />
EHVH-C / ERLQ-CV3/W1 22<br />
NEW<br />
NEW NEW<br />
NEW<br />
NEW<br />
NEW<br />
NEW<br />
NEW<br />
NEW<br />
NEW<br />
NEW<br />
EHVH-C / ERHQ-BV3/W1 23<br />
EHVX-C / ERLQ-CV3/W1 24<br />
EHVX-C / ERHQ-BV3/W1 25<br />
EHBH-C / ERLQ-CV3/W1 26<br />
EHBH-C / ERHQ-BV3/W1 27<br />
EHBX-C / ERLQ-CV3/W1 28<br />
EHBX-C / ERHQ-BV3/W1 29<br />
EKCB(H/X)-BB / EBHQ-BBV3 30<br />
EB(L/H)Q-BB6V3/BB6W1 31<br />
ED(L/H)Q-BB6V3/BB6W1 32<br />
Domestic hot water tanks 33<br />
EKHWP-B 33<br />
EKHWS-B 34<br />
EKHWE-A 34<br />
Room <strong>the</strong>rmostat 35<br />
EKRTR 35<br />
EKRTW 35<br />
Solar connection 36<br />
EKSOLHW 36<br />
EKSR3P 36<br />
EKS(V/H)-P 37<br />
<strong>Daikin</strong> heat pump convector 38<br />
FWXV-A 38<br />
<strong>Daikin</strong> Al<strong>the</strong>rma high temperature 40<br />
EKHBRD-AC / ER(R/S)Q-A / EMRQ-A 42<br />
17<br />
NEW<br />
NEW<br />
Domestic hot water tank & Solar<br />
connection 43<br />
EKHTS-AC 43<br />
EKHWP-B 44<br />
Solar connection 45<br />
EKS(V/H)-P 45<br />
EKSRPS 45<br />
<strong>Daikin</strong> Al<strong>the</strong>rma Flex Type 46<br />
EKHVM(R/Y)D-A 48<br />
EKHBRD-AC 49<br />
EMRQ-A 50<br />
Domestic hot water tank 51<br />
EKHTS-AC 51<br />
<strong>Daikin</strong> heat pump convector 52<br />
FWXV-A 52<br />
AIR TO AIR / WATER TO AIR HEAT PUMPS 56<br />
Residential applications - Split 56<br />
FVXG-K / RXG-K 57<br />
FTXG-J / RXLG-K 58<br />
FVXG-K / RXLG-K 59<br />
FTXS-K / RXL-K 60<br />
FTXS-J / RXL-J 60<br />
FVXS-F / RXL-K/J 61<br />
Commercial applications - <strong>VRV</strong> 62<br />
RYYQ-T / RXYQ-T 64<br />
RTSYQ-PA 68<br />
RWEYQ-PR 69