NL1036649C2 - BUILDING WITH ENERGY PRODUCTION PRODUCTS. - Google Patents

Description

Title: Building with resources for energy production

The invention relates to a building with means for energy production.

In a conventional situation a building costs energy, in the sense that in a building heating in the cold seasons, cooling in the warm seasons, ventilation, electricity facilities etc. are required. It is an object of the invention to provide a building which can be operated at least energy-neutral, and which even offers the possibility of producing energy.

The object of the invention is achieved by a building comprising at least the following components: a roof which is provided with components with a mirroring effect, which components have a concave shape; - elements that are designed to absorb sunlight and that are arranged at the focal point of the concave roof components; - means adapted to convert heat into an energy form such as electricity, and which are associated with the elements arranged at the focal point of the concave roof components; - a ventilation system with fans and ventilation ducts that extend through the building; And wall panels which are provided with openings and which are arranged with a certain underlying space on an outside of the building, said space connecting to the ventilation system.

In particular, the invention relates to a building 25 which is intended to be used as business premises. For that purpose, the building can include both a hall and office space. A hall with closed facades is preferably provided on one side of the building, and office space with a transparent façade is provided on an opposite side of the building, and the building has an orientation in which the closed facades are situated substantially on the east side respectively , are located on the south side and the west side of the building, and in which the transparent facade is mainly located on the north side of the building. This ensures that the building heats up less under the influence of direct sunlight. It is further noted that it is sufficient if only the closed facades are provided with wall panels.

The concave roof components can include a transparent portion and a closed portion. With the same insight for the orientation of the building as explained above, it is preferable if the orientation of the building is such that the closed portions of the concave roof components are located substantially on the south side of the building, and that the transparent portions of the concave roof components are located substantially on the north side of the building.

The means adapted to convert heat into an energy form such as electricity can comprise any suitable technical device. An example is a generator that is designed to realize the intended function of energy conversion on the basis of an Organic Rankine Cycle.

It is particularly advantageous if the building is furthermore provided with heat and cold storage in the ground.

The invention will be further elucidated on the basis of the following description of a building with means for energy production and various components thereof. Reference will be made herein to the drawing, in which like reference numerals indicate like or similar parts, and in which: figure 1 schematically shows a perspective top view of the building 25; Figure 2 schematically shows a cross-section of the building, along a substantially north-south oriented line; Figure 3 illustrates a process of collecting solar energy at the location of the roof of the building; and figure 4 illustrates a process of collecting solar energy at the location of a wall of the building.

An example of the building 1 according to the invention and examples of components of the building 1 are illustrated in figures 1-4. Figures 1 and 2 clearly show that the roof 2 of the building 1 is provided with a number of concave components 3. These components 3 play a role in the collection of solar energy. Figure 3 schematically shows a side view of a roof component 3. The roof component 3 has a mirroring effect, and a device 4 is arranged at the focal point of the roof component 3, so that this device 4 can receive the solar energy collected by the roof component 3 in a concentrated manner. The device 4 may, for example, comprise a photovoltaic cell. In any case, the device 4 itself, or its components (not shown) to which the device 4 is connected, is intended to convert solar energy into a usable other energy form, preferably electricity.

A roof 2 with the concave components 3 is also referred to as a shed roof, and the components 3 are then sheds which are provided with a reflective roof covering on their concave part. Advantages of applying a shed roof are, among other things.

- that there is no energy absorption through the roof 2, and therefore there is no cooling load; - that the collected heat is concentrated by the concave shape of the sheds, so that only a relatively small area of photovoltaic cells is needed; - that the concentration of energy provides electricity, while at the same time providing usable residual heat (for heating in cold seasons); - that the sheds ensure a constant light intensity in the building 1, so that electricity can be saved for interior lighting; - and that a substantial reduction in CO2 emissions is achieved.

Figure 4 illustrates a possibility for collecting solar energy at the location of a wall 5 of the building 1. In particular, outer panels 6 with a plurality of relatively small openings 7 are provided. An underlying space 8 is directly connected to a ventilation system 9 that is installed in the building. Air that is present in the space 8 behind the panel 6 is heated under the influence of solar energy, and is then brought by the ventilation system 9 to a suitable location in the building 1. If it is desirable in the warm seasons to cool the building 1, the collected heat can be removed directly through the ventilation system 9.

Figure 2 shows a cross-section of the building 1. In the example shown, building 1 is a business premises that has both a hall 10 and office space 11. According to insights on which the invention is based, it is favorable from the point of view of energy management if the hall 10 is situated substantially on the south side 40 of the building 1, and has closed facades, and the office space 4 with a transparent façade is mainly on the north side of building 1. Preferably only the closed facades are provided with the aforementioned outer panels 6. Furthermore, it is advantageous if the roof components 3 are provided with transparent sections 12 and closed sections 13, wherein the transparent sections 12 of the roof components 3 are located substantially on the north side, and the closed sections 13 are located substantially on the south side.

With the measures according to the invention, the building 1 can be operated energy neutral, or even generate energy. More energy-saving measures can be implemented in building 1. The building 1 can for instance be provided with heat and cold storage, daylight control, presence detection, energy-efficient equipment, suitable insulation, etc. In a possible situation in which there is surplus energy that is not used directly in the building 1 energy storage can offer a solution. Another option is to return energy to an energy company.

All in all, using the invention, a reduction in energy consumption of more than 200% can be achieved when the building 1 according to the invention is compared with a conventional reference building.

It will be clear to a person skilled in the art that the scope of the invention is not limited to the examples discussed above, but that various variations and modifications thereof are possible without departing from the scope of the invention as defined in the appended claims.

In the foregoing a building 1 has been described which has very favorable properties when it comes to the energy consumption of the building 1. The building 1 is even capable of supplying energy.

In a practical embodiment, the building 1 can be provided with: - means 6 arranged at the location of the wall 5 of the building 1, and which serve to reduce the heating power in the cold seasons and the cooling power in the hot seasons; - means 3, 4 for generating electric energy on the basis of solar heat which is collected on the roof 2 of the building 1; and 40 - a heat and cold storage in the soil.

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Claims (8)

A building (1) with means for energy production, comprising: - a roof (2) which is provided with components (3) with a mirroring effect, which components (3) have a concave shape; - elements (4) which are arranged to receive sunlight, and which are arranged in the focal point of the concave roof components (3); - means adapted to convert heat into an energy form such as electricity, and which are associated with the elements (4) arranged at the focal point of the concave roof components (3); 10. a ventilation system (9) with fans and ventilation ducts extending through the building (1); and - wall panels (6) which are provided with openings (7) and which are arranged with a certain rear space (8) on an outside of the building 15 (1), said space (8) connecting to the ventilation system (9) ). 2. Building (1) according to claim 1, comprising a hall (10) with closed facades on one side and office space (11) with a transparent facade on an opposite side. 3. Building (1) as claimed in claim 2, with an orientation in which the closed facades are located substantially on the east side, the south side and the west side of the building (1), respectively, and wherein the transparent facade is situated substantially on the north side of the building (1). Building (1) according to claim 3, wherein only the closed facades are provided with wall panels (6). 30 The building (1) according to any of claims 1-4, wherein the concave roof components (3) comprise a transparent section (12) and a closed section (13). The building (1) according to claim 5, with an orientation in which the closed sections (13) of the concave roof components (3) are located substantially on the south side of the building (1), and wherein the 1036649 transparent sections (12) of the concave roof components (3) are located substantially on the north side of the building (1). 7. Building (1) according to any of claims 1-6, wherein the means which are adapted to convert heat into an energy form such as electricity, comprise a generator which is arranged to perform the intended function of energy conversion based on to realize an Organic Rankine Cycle. Building (1) according to any of claims 1-7, provided with heat and cold storage in the ground. 1036649