OBJECT OF THE INVENTION
[0001] The present invention refers to a high performance calorifier-heat exchanger constituted
by means of a tank having adiabatic walls that makes use of a double coaxial pipe
coil that increases the flow of heat and allows the storage and production of domestic
hot water.
[0002] It is characterised in the use of a double pipe coil, coaxial, with the external
tube belonging to the primary circuit or heat source and the internal tube belonging
to the secondary or domestic water circuit.
[0003] It is characterised in that the end of the pipe coil of the secondary circuit is
finished in a diffuser located in the low part of the tank.
[0004] It is this tank, having adiabatic walls, which serves as means of storage of domestic
hot water.
BACKGROUND OF THE INVENTION
[0005] Diverse systems are known for heating domestic water by means of the use of heat
exchangers.
[0006] These heat exchangers employ of two circuits, the primary one through which the hot
water circulates and another secondary one through which the water to be heated circulates.
[0007] In particular, a type of exchanger widely used to heat domestic water makes use of
a pipe coil mounted internally in a tank with heat-lagged walls.
[0008] through the pipe coil hot water is made to flow that transfers its heat to the water
stored inside the tank.
[0009] On one hand, the efficiency of heat transfer depends on the exchange area, directly
proportional to the length of the pipe coil and the diameter of the pipe as well as
to the conductivity of the material; and on the other hand, on the thermal gradients
that are established in the fluid particles adjacent to the exchange surface.
[0010] Since the tank has a large capacity, the appearance of hot areas and others that
are cold favour internal movements of flotation that generate transport phenomena
by advection that favour the mixing phenomena.
[0011] However, the flotation movements are small in comparison with the velocities that
an incoming or outgoing stream of water can acquire under consumption conditions.
[0012] Another additional drawback is the time of heating since, to reach the supply temperature
it is necessary to heat the entire volume of the tank.
[0013] The present invention proposes a special configuration of the pipe coil that resolves
the previous problems.
DESCRIPTION OF THE INVENTION
[0014] The present invention relates to a calorifier-heat exchanger to heat domestic water
in production and storage conditions.
[0015] The present calorifier-exchanger consists of a tank having adiabatic walls, mounted
vertically or horizontally which includes a double coaxial pipe coil in its interior.
[0016] This double coaxial pipe coil is constituted mainly by two tubes, one internal and
another external.
[0017] The external tube is that which corresponds to the primary hot water circuit serving
to transfer its thermal energy to the water for domestic use.
[0018] This circuit enters through one of the walls of the adiabatic tank and connects with
the hot water supply source.
[0019] This source of hot water can come from any external generator (e.g. boilers, solar
panels, etc.) or it can even make use of a heating circuit with over-dimensioned means
of heating.
[0020] Before entering the adiabatic tank, a second tube corresponding to the secondary
or domestic water circuit penetrates inside the tube of the primary circuit which
is of larger diameter, after which point both are coaxial there being between the
two an annular section.
[0021] It is through this annular space that the water of the primary circuit passes that
serves to heat the domestic water that circulates through its interior.
[0022] Thus, the domestic water enters through the secondary circuit, this secondary circuit
penetrates inside the primary circuit, and starting from there both tubes describe
a pipe coil that covers a great part of the interior space of the adiabatic tank.
[0023] When the domestic cold water enters in the secondary circuit, it is compelled to
flow through the interior part of the pipe coil by the internal tube.
[0024] Thus, over the full length of the pipe coil, the domestic water is heated by the
primary circuit.
[0025] When arriving at the end of the pipe coil, the internal tube again traverses the
external tube to become independent once more and ends in a free vertical length on
the lower part of the adiabatic tank.
[0026] The circulation in the pipe coil is in counter-current so that the final temperature
of the domestic water when arriving at the end of the pipe coil is close to the temperature
of the incoming hot water of the primary circuit.
[0027] This final length has a plurality of perforations that favour a gradual loss of head,
in turn diffusing the heated water.
[0028] Thus, the domestic water, when it enters the tank, already does so practically at
working temperature and it has not been necessary to heat the entire tank volume.
[0029] Also, the pipe coil transfers heat through its external face, since the external
annular section corresponds to the primary circuit assuring the temperature of the
tank at all times with respect to possible heat loss or because the appropriate temperature
has not been reached.
[0030] The annular geometry of the primary circuit favours a greater loss of head which
is dissipated as heat in the interior of the tank.
[0031] This loss has to be compensated by the circulation pump of the circuit.
[0032] When the secondary circuit injects no flow, the primary circuit transfers all its
heat radially toward the tank through the external wall since the little retained
water remaining in the secondary circuit is quickly heated and offers hardly no thermal
inertia.
[0033] The primary circuit is opened when a drop is detected in the internal temperature
of the tank.
[0034] The other eventuality that opens the primary circuit is when domestic hot water is
consumed.
[0035] In this case the ingress of cold water to the pipe coil is detected by a sensor that
opens the primary circuit.
[0036] Thus the water that enters the tank does so already hot for which reason the tank
is instantly topped up with hot water.
[0037] The rest of the hot water offers great thermal inertia in the face of high consumptions
so that this system combines a system of production and of storage of domestic hot
water.
DESCRIPTION OF THE DRAWINGS
[0038] The present descriptive specification is completed with a set of drawings, by way
of illustration of the preferred embodiment and not as a limitation of the invention.
[0039] Figure 1 is a schematic representation of the calorifier-heat exchanger object of
the invention.
PREFERRED EMBODIMENT OF THE INVENTION
[0040] In the light of the foregoing, the present invention consists of a calorifier/heat
exchanger for production and storage of domestic hot water.
[0041] Figure 1 shows a schematic of an embodiment of the invention in which a tank (1)
having adiabatic walls is shown, with inlets for two circuits: a primary circuit (2)
for ingress of hot water, and a secondary circuit (3) for domestic water.
[0042] The primary water circuit (2) is that which serves to contribute the thermal energy
to the domestic water that circulates through the secondary circuit (3).
[0043] The exchange of heat takes place inside the tank (1) where both circuits coincide
in a double coaxial pipe coil (4) constituted by two pipes, one internal (4.1) connected
to the secondary circuit (2) and one external (4.2) connected to the primary circuit
(I).
[0044] The ends of the external tube (4.2) of the pipe coil (4) connect with the inlet and
outlet of the primary circuit (2) feeding hot water into the annular space of the
pipe coil (4) existing between the external tube (4.2) and the internal (4.1).
[0045] Furthermore, the internal tube (4.1) is connected to the secondary circuit (3) constituting
the internal length to the exchanger.
[0046] Through the upper inlet (3.1) of the tank (1) of the secondary circuit (3), the cold
water enters and after travelling the whole pipe coil (4) wherein the exchange of
heat takes place it egresses to the interior of the tank (1), on its lower part, through
a diffuser (4.1.1) constituted by means of perforations implemented in the final length.
[0047] The egress of domestic hot water takes place on the upper part of the tank (1) through
a coupling (3.2) that connects with the secondary circuit (3) of domestic water in
its hot water length.
[0048] The interior of the tank (1) has a heat sensor (5) that opens the primary circuit
(2) by means of a valve (2.1) when the temperature is below a certain preset value.
[0049] If there is no consumption of domestic hot water, the hot water that enters the primary
circuit (2) transfers heat to the interior of the tank since the water stored inside
the internal tube (4.1) has a very reduced thermal inertia.
[0050] If there is consumption of domestic hot water, the circulation with respect to the
primary circuit (2) is in counter-current so that the temperature of the domestic
water at the end of the pipe coil (4) is close to the ingress temperature of the hot
water of the primary circuit (2).
[0051] The loss of head in the primary circuit (2) due to the greater resistance that is
offered by the annular section is transformed into heat delivered to the interior
of the tank (1) and has to be made up by the circulation pump (6).
[0052] The directions of circulation of the primary circuit (2) and secondary circuit (3)
are indicated by arrows.
[0053] This same embodiment includes various manual valves that allow each of the lengths
of the different circuits to be closed.
[0054] The essential nature of this invention is not altered by variations in materials,
form, size and arrangement of the component elements, described in a non-restrictive
manner, this being sufficient for an expert to proceed to its reproduction.