DE2417220A1 - Heating unit combined with air conditioning - using natural energy sources and off peak current in combination - Google Patents

Abstract

Heat circulation system to heat, cool, dehumidize, using waste heat, air, water, ground and solar heat, consists of three connected units, a cold storage, a heat storage containing paraffin or sodium sulphate, and a refrigeration unit on off-peak current. The heating elements are able to absorbe or discharge heat through their pipe surfaces. Cold storage elements act as evaporators of the heat pump. The storage medium in the refrigeration u nit would normally be water. Pipes of the cold storage unit may either absorb or discharge cold. The unit has on its cold side an additional salt water circuit, on its heat side an additional water circuit both connected to their main circuit by plastics hoses. The system re-cycles de-humidized air, can also be used without a cold storage unit, can use solar cells in conjunction with the other parts as a wall unit and may be connected to radiators.

Description

Peter Rabien 85 Nuremberg Strin & bergstr <> 6 2 Λ 1 7? ? Ω

Heat pump device

From the smallest air conditioner "to the large energy network system heat pump circuits are known and implemented in many variations.

There are innumerable publications about their necessity and more or less achievable profitability.

The main goal of the heat pump circuit, the waste heat Raising soil, water and air to a usable level is apart from special cases, so far as a failure to look at ρ

The reason is obvious:

If one assumes the electricity tariffs generally granted by the electrical supply companies, the ratio is Tone high to low tariff electricity about 2.5.

Moreover ^ still need aschinenaggregate usually a significant demand charge and pay ₀ The ratio of 2.5 corresponds to, but also a first approximation of practically achievable coefficient of performance of an air-IUFD or air-water-air Üeizwärmepumpe with additional heating at peak load "

In relation to the annual energy costs, therefore yields today a simple night-time heating has the same efficiency as the much more complicated one; Heat pump with power consumption in the high and low tariff areas

Due to our balanced climate in Central Europe, Because of the rapid energy shortage and price increase, the environmentally friendly implementation is general usable heat / pumps an important and urgent one

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The invention assumes that a heat pump system only can work economically if the refrigeration machine only runs during the low tariff period *

Z ₀ B ₀ many swimming pool heat pumps prove this. TJm Fun to come to a generally usable night-time heat pump system with which heating and air conditioning systems can be supplied, according to Figure 1, a cold store (1) and a heat store ^) by a refrigeration machine ^) only charged during the low tariff period,

Both the cold and the heat accumulator are made up of plate or shell-shaped storage elements (4) (5) that can absorb and release cold and heat _e The storage material of the cold accumulator in the accumulator elements will normally be water _e The accumulator elements (4) are with overflow device (i2), the accumulator with drain (13).

Furthermore, a pipe system (7) can be installed to be able to bring in or out waste heat with liquid media ^ When loading the kite memory, the water cools down and freezes. Approximately ₀ 90 Kcal of cold can be stored per kg of water and reference temperature +10 degrees C ₀ However, other storage materials are also conceivable ₀ The storage element can also be closed if contact with open water is unfavorable maybe up to 80 degrees, can absorb latent heat _o (e.g. Glauber's salt or paraffin) If there is enough space for the storage tank, water can also be taken «

The storage tanks are provided with insulation »(14) (15) In the case of air heating or air conditioning systems, the storage tanks are provided with Air over the surfaces of the storage elements (6) (8) discharged temperature control; via bypass on the heat storage tank for heating, on the cold storage tank for cooling or dehumidification «

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In the heat storage elements ^), which are the condenser of the heat pump device or which are firmly connected with condenser tubes, additional tubes (9) can also be installed, which _{supply Z 0} B ₀ surface heating or transport heat © to and from other consumers / sources «

Many such night-time storage systems can be installed at particularly low cost Connect units with the known hot and cold water network to the usual systems with zone compensation «, Waste heat and solar heat can then also be fed in or withdrawn ο

In the heat storage elements (5), in addition to the condenser device, there is a built-in night current resistance heater 10) in order to cover the peak heat load, since the refrigeration machine is only sensibly designed for a medium heat load ₀ If the devices outlined in this way exceed a certain size, then ^ evaporators and condenser pipes would be due to their low heat flux density, are relatively expensive _o For this and transport reasons, the system can be divided into three parts according to embodiment Figure 2: cold storage (1), heat storage (2), machine set (3) β The machine set is more compact Liquid cooler designed with the correspondingly larger heat flow thicknesses on the evaporator and condenser «,

Cold storage (1) and heat storage (2) are then obtained Storage elements made from inexpensive plastic tubing or Hollow bodies.

The energy-side connection of the three components is made on the cold side with a brine circuit (4) and on the warm side with a water circuit (5) ο

The connections (6) and (7) can for external waste heat and useful heat one or _o edition be used _e Even this construction is in air systems discharged air While the two additional cycles degrade the ^ eistungsziffer of the overall process considerably, but they allow for large and the largest systems, a compact refrigeration assembly as well as modular and industrial production «)

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Figure 3 and Figure 4 show the various possible functions of the heat pump device:

Circuit (1): Air and / or hot water heating on the heat storage tank, the cold is released to the outside air or stored during the low-temperature loading operation and released during the warmest hours of the day fed or permanent Annfall in the charging period of the cold storage can be quite foregone, circuit (2): heating and dehumidifying, for example, _o ^ chwimmhallenklimaanlagen "the information stored in the NT-time cold and heat is in the HT-time from the memories taken circuit (3): is chwimmbadanlagen for pure latent Kühllawt for dehumidification, bzwo less sensitive cooling load of ^D a heat and cold recovery as Sparentfeuchtung switched into the cold extraction

Circuit (4): Cold supply for sensible cooling load, heat used as far as possible, excess heat emitted as waste heat

Circuit (5): single embodiment, similar to the conventional electric storage heating Eder cold storage is omitted, the refrigerant is discharged with direct evaporator during the charging process, the heat in the heat storage or FlächenheizungCö) gegeben.Die surface heating (6) may be constructed similar to the heat storage elements ₀ are E.g. _e 2-3 cm thick hollow bodies filled with salt or paraffin, which are penetrated by a tube system, which is connected to the condenser part of the heat accumulator every desired radiant temperature of the surface heating can be set.

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Circuit (8); is intended as the most optimal air conditioning unit for rooms on external facades _o A compact device under the window sill contains the cold storage (IO), the solar collector (9) »the heat storage (11), the machines, control and ventilation part (12), outside air intake (13), Blow out (14) and possibly surface heating

Example of a day function: from 22 Ms 6 o'clock in the morning charging of the cold and heat storage, as well as the underfloor heating ₀ Simultaneous heating operation with night reduction, only circulating air ₀ From 6 Ms 8 o'clock standstill, temperature control over the floor, 8-11 o'clock heat storage discharge, fresh air supply o 11- 2 p.m. strong solar radiation, cold storage discharge via the room, fresh air supply (central or decentralized) If necessary, recharge of the heat storage via the sun _o H-5 p.m. ^X1 heating and ventilation.

If the cold storage tank is not empty enough, discharge via outside air or solar collector ₀

5-10 p.m. Standstill, temperature control over the floor.

Cold storage continues to discharge so that it is empty at 10 p.m. If, on the other hand, there is excess heat and the heat cannot be conducted to other consumers, heat output is ₀

The progress of the invention lies in the reduction of energy costs, in the economical use of energy, in the fully electric, environmentally friendly construction, in the reduction of pollution in relation to every futzkalorie consumed, in the compact too inexpensive series producible concept © The invention lowers compared to pure · ^ eight-current heating the annual heating costs around 40-60 $, for indoor swimming pools the ^ ahr dehumidification costs around $ 40 to $ 80 depending on the comparison stenio

In the case of cooling tasks in addition to heating tasks, cooling is almost free of charge, it is a by-product of the generation of heating energy. With its mild heating medium temperatures, dust carbonization is ruled out; be generated _e

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Furthermore, the invention lowers the acquisition costs compared to conceivable split systems, since the cooler and air heater surfaces get the double puncture as storage vessel and heat exchanger _o With pure air heating or cooling or dehumidification systems, pipes and pumps are omitted due to the multiple function of the same components in air heaters, hot water heaters, swimming pool air conditioning systems, normal air conditioning systems the advantage of low energy costs can be fully passed on to the system operator through large-scale production «

The invention is an important step on the way ₅ to save scarce and expensive energy, and to use the inexhaustible solar and garbage heat in a relatively simple way.

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Claims (1)

Claims; Heat pump device for heating, cooling, dehumidifying, for Waste heat utilization of air, water, ground and solar heat characterized in that a cold store (Figure 1) (1) and a heat accumulator (2) are assembled and with a Refrigeration machine (3) can be charged with low-tariff electricity « Heat pump device according to claim!, Characterized in that that the plate or bowl-shaped storage elements ^) des Heat accumulator (2) are filled with heat storage material or consist of him " 3ο heat pump device according to claim 1-2, characterized in, that the storage elements (5) are the condensers of the heat pump or contain them 4ο heat pump device according to claims 1-3, characterized in that that the heat storage material consists of a substance "which can absorb greater latent heat at condensation temperatures in the condenser between 30 and 80 degrees * 5e heat pump device according to claims 1-4, characterized in that that the storage elements ^) can emit or absorb heat through their surface and through built-in tubes (9) ", 6ο heat pump device according to claims 1-5, characterized in that that an eight-current resistance heater (IO) is built into the storage elements ^) next to the capacitor device «, 7β heat pump device according to claims 1-6, characterized in that the cold storage (1) consists of shell-shaped or plate-shaped storage elements ^) which are the evaporator of the heat pump or in which the evaporator is built _e 509845 / 0Λ38 8 »Heat pump device according to claims 1-7, characterized in that the storage elements ^) consist of storage material or * are filled with storage material ₀ 9ο heat pump device according to claims 1-8, characterized in that that the cold storage material at evaporation temperatures between -10 and +20 degrees in the evaporator larger quantities can absorb latent heat » 10oWärmepumpeneinrichtung according to claim 1-9 "characterized in that the cold storage elements (4) can give 7) cooling across its surface or built-in tubes ((or add _o 11o ^ heat pump device according to claims 1-10, characterized characterized that in shell-shaped cold storage elements ^ 4) Water that can be chilled and frozen is its Increase due to condensing water vapor through overflow (12) and condensate drain (13) remained limited (End of figure 1) 12 «Heat pump device according to claim 1-1!, Characterized in that that it (Figure 2) consists of three separable parts: the cold store (1), the heat storage (2) and the machine set (3) 13o heat pump device according to claims 1-12, characterized in that the machine set is designed as a liquid cooler _{or the like} i4e heat pump device according to claims 1-13, characterized in that the cold side has an additional brine circuit (4), the warm side an additional water circuit (5) _e 509845/0438 Heat pump device according to claims 1-14, characterized in that the cold storage elements are provided with plastic hoses or with cavities which are connected to the brine circuit _e 16 "Wärmepumpeneinriehtung according to claim 1-1 5, characterized in that the heat storage elements are provided with plastic tubes or cavities, which are connected to the additional water circuit (5) ₀ 17o heat pump device according to claims 1-16, characterized in that heat or cold can be taken from or fed in from the device via the connections (7) (6) _e
(End of figure 2) 18o heat pump device according to claim 1 ~ 17 »characterized in that the cold stored in the low tariff period is released to the outside air in the warmest hours of the day or continuously, or that the cold is fed into any waste heating system ₀ (Figure 3) (1) 19o heat pump device according to claim 1-18, characterized characterized that the stored cold is mainly is used to dehumidify air «(2) 2Oo heat pump unit according to claims 1-19 »characterized in that a heat and cold recovery is built in for optimal dehumidification τοη air _o (3) 21oWärmepumpeneinrichtung according to claim 1-20, characterized ₉ that the stored cold is used mainly for cooling, and the excess heat and waste heat is removed _o (4) Heat pump device according to claims 1-21, characterized in that charging and discharging, cold and heat transport are controlled as a function of cold and heat demand as well as the course of the external enthalpy _o 509845/0438 Heat pump device according to claims 1-22, characterized ₉ that the cold storage tank is omitted and the cold is released directly to the outside air _o (Figure 4) (5) 24o heat pump device according to claims 1-23, characterized in that solar collectors ^ Vahlweise charge the heat storage or cold storage, or _o discharge _o (Y) 25 <> Heat pump device according to claims 1-24, characterized in that the solar collector _{9), cold storage (10) 9,} arm storage (11), machines, control and fan parts (12) are assembled to form a parapet or wall element ₀ 26 _o Heat pump device according to claims 1-25, characterized in that heat storage elements formed as hollow bodies, which are filled with storage material with suitable latent heat, are connected to the system as surface heating (6). 509845/0438 Blank page