FR2514872A1 - Heat recovery module for local heating applications - uses enclosure with heat absorbent walls having embedded serpentine coil carrying working fluid which gathers low grade heat - Google Patents

Abstract

The absorbed heat is stored in a gaseous or liquid working fluid which follows a serpentine path inside the absorbent walls which form the casing of the unit. A circulation pump increases pressure and thus temp. of the working fluid which transfers to a second serpentine coil from which the heat is transferred to the outside air. The flow of air over the warm coil can be increased by an electrically driven fan mounted in the base of the unit. The heating of the fluid in the absorbing walls can be derived from any low grade source of energy e.g. solar heating or heat from warm air extracted during ventilation. A supplementary electric heating element can be incorporated.

Description

The present invention relates to heat recuperators and solar collectors
The various known varieties of materials allowing solar heat recovery generally have the major drawbacks of not being: easy in size, easily acceptable aesthetics, attractive investment and operating costs of the l investment, independent of the building to be fitted, easily movable, capable of simultaneously recovering the heat contained in several sources producing or containing heat, independent of the presence or non of direct or indirect solar radiation, able to recover heat from all radiation
The ordered module nour the recovery of local energies, object of the present invention, can recover day and night the heat occurring on its absorbent wall. Either on its front face, or on its rear face, or on both at the same time, independently of its ability to absorb solar radiation. Whether the source of the heat is liquid or gaseous, or both. It is able to operate in all latitudes, in all seasons, by neutralizing all the constraints introduced by the use of 1. ' solar energy by flat collectors or collectors with a concentration of solar energy. This saves energy consumption for the user, greater than what he can expect with all other systems, either solar or recuperator of energy
In fact, the device is able to produce, for example, all of the domestic hot water needs without using conventional back-up energy.
Its only energy consumption resides in that used for the operation of the circulators and ventilator with which it is provided. This energy being recovered in the form of heat by the rear face of the absorbent wall
For this basic module, the installed electrical power can be of the order of 350 watts, for a potential of heat production power comprised, in the case of normal use, between 1.4 and 2 k ′. h, depending on the heat content of the different sources providing the heat. islands are in a nonlimiting way,: the Sun, the air, rain or runoff water, effluents, stale air when it is extracted from the premises, etc ...

Can be made of different size from the basic module object of the present invention (whose dimensions are envi -roni: height 0.90 meter, width 0.90 meter, depth 0.26 meter at its base), it is easily manipulated given its shape and weight (less than 45 kilos). Its installation at the place of use is therefore easy. In particular: inside a living room (behind a bay window in particular), immediately outside a living room, in the form of a bay sill, against a wall , on a terrace, on a balcony, as a railing for a balcony or French window, against a chimney stump on the roof, outside in a garden or a massif, as a fence or hedge, in sete classified or not (no specific approach). It does not require either: special training for the seller and the installer, the use of a particular architecture when you want to use solar energy in an aesthetic way , a special interview.

The device is composed of: - an absorber -7- comprising: a circuit presented here under
serpentine shape -2- (embedded -or- not in a material -3
allowing rapid absorption and accumulation of cha
them in the absorber itself) placed above or below
face of a flat surface (possibly, the coil is
placed: either between two pillowcases, or between two glasses, 1 'of which
space is filled - or not - with a material allowing absorption
rapid action and the accumulation of heat in the absorber
or is fitted with fins, the intervals between fins
- they are filled - or not of a material as indicated below
before), which can be exposed to the Sun and be fed by a
technical solution allowing better absorbency
of solar radiation. If applicable, but not compulsory
re, the absorber can be fitted either directly on its
outer surface, some distance from its on
-external face, of an element allowing the realization of
the greenhouse effect. Inside the coil -yes is etan
che by nature- circulates a gas mixture including Drorrié
essential physical tee is its evaporation, inside
of the coil, at a temperature lower than the temperature
ambient temperature, whatever the season and the time - a circulating element -4- allowing circulation and au
increased pressure inside a second snake
tin -5- responsible for releasing the heat contained in the melan
gaseous gas passing through it; serpentine that can be put in
work either in a box - so that it releases the heat to
the "air" or "gas" atmosphere that will circulate around the coil
so that it can warm up the point of use at
@@@@@@@@@@ @ @ from this heated air, for example,
in a circuit independent of the rest of the device; is
in a container -6- containing a liquid or gaseous fluid
- so that it releases heat to the fluid in which the ser
pentin will bathe-. The absorber coil and the coil
diffuser being a single and interrupted pipe
by the interposition of the circulating mixture assembly and
by a system allowing the mixture to relax. This system
consisting either of a simple capillary tube of a certain
dimension placed just before the diffuser coil re
becomes the absorbing coil; either in a series of more
capillaries - or form of pipes -, depending on the
cases of different sizes, only one of which is each time
in operation according to the pressure level contained in
The serpentine- diffuser.The selection between each capillary
being carried out thanks to the interposition of automatic valves:
-tics and selective - a set allowing the transfer of the contained heat
in the diffuser, to the heat utilization fluid.
includes: insulated pipelines - or not ensuring ar
-rival of the fluid -f - and its return -t8- at the point of use-
-tion, a circulator -10- allowing the fluid to use
tion to evacuate as quickly as possible the heat contained in the reci
pient -6 a set of electronic regulation -t7- comnren2r.t:: a
temperature measurement probe -ft- to be used at
point of use of heat, a temperature probe
-t2- placed inside the container -5- containing the dif-
-heat fuser, a circulator start switch-
-tor -t- gaseous melFnze, um start contactor
ciculator -10- of the operating fluid, a dice switch
-starting the fan -t3-, if necessary, a
temperature to measure the wall temperature
absorbent, on its surface inside the module
A reduced electrical outlet 9- to all of
regulation, operating lights and ca
-drans indicating the pressure in the operating circuit of
heat, and its temperature, constitute the equipment
additional electrical equipment necessary for proper functioning
-ment of the machine
These indicators and dials -t6- being implemented, preferably
-this, so as to be visible from the outside.

-A ventilation system allowing air to be blown either from the outside free space or from a room,
destination inside the device. A grid of eva
cuation -21- being provided to allow the exit of air contained -in the apparatus, after cooling of the latter.

-a horizontal partition -14- separating the lower part of the appliance from the upper part, while leaving a sufficient space between the rear face of the absorbent sari and the
partition, so that the air supplied by the ventilator is forced to circulate against the rear face of one absorber, before escaping through the upper part of the front of 1 t device.

- an insulated body - or not - placed on: the top, the
sides, the back - with a removable part -, and the bottom of
the device; on or in the absorbent wall (the
front of the device) is attached. The ensem
-blue constituting an airtight element, having only openings: an air exhaust grille -21-, a grille
-20- fresh air intake placed in front of the fan
reference to the rear of the aircraft, one or two
the evacuation of condensations that may be present inside
the camera.

-four adjustable feet to ensure correct leveling
of the device when it is used.

The shelf on which the container -6- and the
gas mixture circulator A, is mounted in such a way that any vibrations of the ring are not transmitted outside the device e
This also allows a better balance of these elements in the case of an installation with an incorrect level of the device, relative to the vertical -e
Principle of operation of the module
Under the action of heat from a liquid and / or gaseous source, whatever it is, the mixture contained inside the coil -2- will warm up imperceptibly.

His pressure will increase. Via the upper supply line -7, the mixture will reach the circulator -. The latter will start working and will allow the pressure of the gas mixture to rise at the outlet of the circulator. Under this effect, the temperature of the gas mixture will rise.

A pipe -5-, preferably insulated, will bring the heated mixture to the coil -5-. By releasing its heat in the container containing the fluid for use of the heat, the mixture will drop in pressure, in a considerable way, when the gaseous mixture crosses the pipe in the form of an expansion capillary, to then penetrate into the line -8- for returning the mixture to the absorber.

The heat accumulated in the container -6- will be evacuated by the action of the circulator -10-, bound for the point of use.

The regulation will continuously compare the temperature of the fluid at the point of heat use, and the temperature of the fluid at the point of measurement of heat in the container -6-.

Whenever the temperature of the fluid at the point of use -section will be lower than that of the container -6-, the regulation will order the circulator -10- the evacuation of the hot fluid bound for the point of use.

So on, until the temperature, at the point of use, reaches the climax yes, the latter has been ordered. If for any reason the temperature level inside the container -6- reaches 50C, the regulation would also order the circulator -70- the circulation of the end-use fluid to allow the temperature to rise inside the container. At the same time, it would also give the order to the circulator -4- to stop working.

The originality of this invention does not consist in the proper functioning of the circulator -4, nor in the gaseous mixture (of commercial products) circulating in this way inside the circuit.

It resides both in the combined faculties of the device to be both a heat recuperator from the most diverse sources, and a solar energy collector, thanks to the design of its absorber-accumulator heat and assembly of the components shown in the drawing, and / or stipulated in the description of the invention.

According to the needs, it is possible to carry out installations with one or more modules connected together. It is even possible to carry out ins'allations with modules of particular dimensions and powers, different to that presented here, although its dimensions are not necessarily related to its power. Its daily production of heat under standard hot water is between 440 and 750 liters at 550C, depending on the days and the seasons. It can be used both for space and swimming pool heating, as well as for industrial and household needs such as : everyday uses, washing machines and dishes, etc ....

By mixing the air that will allow the fan -t3-, it will play a role of destructor of the heat usually contained closer to the ceiling, than the floor of rooms.

Going down to ground level, the warm air will improve comfort and allow very significant heating savings.

Claims (1)

CLAIMS. 1. - Orderly module for the recovery of local energies characterized by the functions it performs due to its design - thanks in particular to its absorbent wall. Its functions being, tolerated at the same time: the simultaneous recuperation of the heat coming from several sources of different nature, appearing in fluid and / or gaseous form, and / or of various radiation, on the only absorbent wall of the device, both by its front face and by its rear face, or both at the same time; the accumulation of heat at any temperature level, in a very small volume, inside the absorbent wall, while waiting for this heat to be passed through to the gaseous or fluid mixture circulating in the coil forming the displacement circuit of the fluid, integral part of the absorbent wall; the solar collector function - with or without greenhouse effect -, with a very high level of technical performance when the front face of the module is exposed to the sun; extracting stale air - or not contained in a room, thanks to its fan; neutralizing condensation on the walls of rooms that are poorly thermally insulated - or poorly ventilated naturally -, from which it extracts air at floor level; the delamination of the layers of heat contained at different temperature levels inside a room, by reducing the ambient air to the ground level of the team room, thereby ensuring better comfort in this room, for less energy consumption; keeping out of risk of asphyxiation by certain gases, premises of which it is the equipment; heat recovery from the air extracted from the premises. The module being made up of a bodywork assembly - thermally-insulated or not of dimensions: 0.90 meters high, 0.90 meters front width, 0.26 meters deep at the base and half height approximately, 0.13 meter deep at the top of the bodywork, not less than z.7 kg resting on 4 adjustable feet to ensure the horizontality and verticality of the module during its rise and work; equipped on the front and rear facades with grilles allowing the entry and exit of air, as well as entry and exit for the fluid for the use of the recovered heat, with an electrical intake the device, an output from a temperature measurement probe at the point of use of heat, a set of indicator lights, dials and / or counters bearing operating indications; including the front face (the absorbing wall ) is preferably dark in color, with an albedo of less than 0.20, dull and / or slow shine, covered -or- not with a system creating a greenhouse effect ;; inside which -or on which- The following equipment is assembled: - a ventilation system equipped with a fan of a certain power and a large air flow, allowing the air penetration inside the module, in order to cool continuously circulators; --- an absorbent wall comprising a circuit, preferably tubular, channeling a gaseous mixture at a very low level of evaporation temperature, circuit intimately linked to a flat surface - or shaped -, of very good level of conduction heat, in order to ensure better thermal contact between the circuit and the surface. The latter can be implemented in -or on the module, preferably on the external side on the front of the module. Against this surface and between -and / or on the channels of the circuit, a material is used allowing: the rapid absorption of heat, the retention of this heat (with a heat storage capacity which can be located at around 5 klwfh of returned heat, for a final thickness of the absorbent wall not exceeding t5 millimeters, of which  8 to 10 millimeters for the only material absorbing the cha  their), the restitution very slowly, as and when  heat requirements of the circuit channeling the gas mixture. - an element allowing both the circulation of the mixture  gas contained in a circuit independent of the point of use  heat sation; and the elevation of its pressure before  the phase of restitution of heat to a fluid for use of this heat - an assembly allowing the transfer of 1- heat contained in the circuit of the mixture of gaseous gases, to the fluid of use  of this heat, and its transport to the point of use  -sation ;; - an element comprising one or more pipes -or  forms of pipelines-, possibly of sizes and dry  tion, ensuring by relaxation, the modulation of the  pressure of the gas mixture, before it enters the interior  laughing circuit forming an integral part of the wall ab  sorbent. If applicable, the selection for the use of  this or that pipeline - or form of pipeline -, when  operation of the module, only one of which is used for  each time, done automatically by a system of  automatic valves acting according to the pressure of the  gas mixture and / or its temperature - a shelf, not fixed, on which the element is mounted  circulation of gaseous fluid and that of heat transfer  their, - a horizontal partition placed in such a way that it is necessary to  the air entering the module, to be pressed against the face  inside of the absorbent wall, before coming out in par  -high side of the front panel of the module - a regulating assembly to ensure the functioning  ment of the module, for its greater rationality. 2 - Arrangement according to claim n01, characterized in that the module can be made in any size and according to the power that requires the request. your dimensions, shape and power do not have any transfer of nroportion between them. 3 - Arrangement according to claim n01 and 2, characterized in that the absorbent wall is composed of two flat or staked surfaces, between which the cooked cir channel the gas mixture is trapped, and in con -tact -or not with both surfaces, the remaining free spaces of which are filled with a heat storage material as claimed in claim 1. 4 - Arrangement according to claims n 1,2 and 3 characterized in that the absorbent wall is composed of a structure forming a succession of hollow oc-togonal or hexagonal cells, the walls of which are in direct cortunication and allow circulation , inside, of the gaseous mixture ;; the free space on the middle of each cell being filled - or not - with a heat storage material as indicated in claim n01 5 - Arrangement according to claims n01,2,3 and 4 characterized by the fact that the = me of the absorbent wall is composed of a tube in which the gas mixture circulates, pouTL seen from fins implemented perpendicular to the tube, and intended to rapidly diffuse heat to the tube .L space between the fins being filled - or not - with a heat-accumulating material, as indicated in claim noie 6 - Arrangement according to claims n01,2,3,4 and 5, characterized by the would or the circuit channel the mixed , and the possible walls and / or structures in contact with the circuit, are completely incorporated inside a heat accumulator material as indicated in the claim -tion n01. 7 - Arrangement according to claims n 1,2,3,4,5 and 6, characterized in that the material used to accumulate heat can be a derivative of mineral products compound based on silica, which physical transformation has been obtained by raising the temperature to more than 8500C, in order to make it: highly heat absorber, heat accumulator (4 times more than water, for an equal volume), heat restorer (T2 times slower than water); whatever the level of its temperature. 8 - Arrangement according to claims n01,2,3,4,5 and 6, characterized in that the material used to accumulate heat is a commercial product or an industrial waste, which may be in solid, liquid or gaseous form, with change of physical phase or behavior - or not, depending on the temperature level of which it can be located either during the absorption of heat, or during re-retention, or during restitution, or during of the three at the same time.  9- Arrangement according to claims n 1,2,3,4,5,6,7 and 8, characterized in that the front face of the module is formed in such a way as to obtain an optimal perpendicular exposure to the solar power both in summer, only in winter; thanks to its vertical part and its inclined part, which are designed so that it k, to obtain this effect in any period of sunshine. 10 - Arrangement according to claims n 1,2,3,4,5,6,7,8 and 9, characterized by the fact that the heat transfer system produced by the module, may also not be a container As indicated in claim n01, but an air circulation system connected to -or incorporated in-the-device and is independent of the other ventilation circuit, already an integral part of the module. This system being used either for recycling air or preheating the air, or both.