NL8200310A - METHOD FOR COOLING AND / OR HEATING, AND APPARATUS FOR THIS METHOD - Google Patents

Abstract

A plant for cooling and heating and a process using said plant with proportional adjustment of the rotatory speed, resulting in considerable saving of energy.

Description

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Ref .: 82-03. Int. ClassF 25 B

Method for cooling and / or heating, as well as equipment for this method.

Applicant: Marinus Wilhelmus Matheus Avontuur, Made (N.B.).

The invention relates to a method for cooling and / or heating with an electrically driven device, comprising one or more compressors, one or more evaporators and one or more condensers.

The refrigeration technology has boomed in recent years 5 and its significance for living and household, industrial processes and for the sustainability of food and products from and for agriculture and livestock farming as well as for medicine and pharmacy is still growing.

On the other hand, the energy consumption is far too high and considerable savings have to be made on this.

The known methods and aggregates have become more efficient and practical for the user, but the energy consumption has not decreased noticeably because it was believed that only an improvement in efficiency would yield the necessary savings.

15 However, this has proved to be an incorrect assumption.

The continuous running of compressors, fans and pumps in the known aggregates also leads to unnecessarily high energy consumption in unloaded or low-load situations, even if the efficiency is judged to be reasonable.

An attempt was made to eliminate the said drawback by means of an improved system.

It has been found that a considerable saving of the energy consumption, together with an increase in the efficiency, can be achieved by using a method as mentioned in the preamble, characterized in that a wholly or partly capacity-dependent proportional speed control of the compressor (s), fans, pumps and / or valves is used by frequency converters, while a preferably hermetically closed oil pump for the device is independent of the compressor (s) and is arranged separately.

For the method according to the present invention use is now made of a system consisting of one or more compressors, evaporators with fans and / or pumps and one or more condensers with fans and / or pumps, which are provided with frequency inverters, which as 8200310

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% -2 speed controllers function, these frequency converters being controlled by a microprocessor.

The speed control, which takes place by the frequency converters, allows a saving of the absorbed energy to be achieved up to approx. 30%.

Method and device are further described with reference to the attached figures 1 and 2, which show schematic representations of embodiments of the device according to the present invention, which however is not limited to the number of components as shown.

Larger as well as smaller devices can also function according to the present method and then fall within the scope of the present invention.

Figure 1 shows a device as intended for the method according to the invention, in which the compressors (1), the evaporator fans (2) or pumps (3) and the condenser fans (4) or pumps (5) 15, which are provided with frequency converters (6) as speed controllers, which are controlled by the microprocessor (7).

The device uses one or more piston compressors (1), preferably of the open or indirectly driven type. The electric motor (8) of the compressor (1) is the frequency converter as 20 speed controller (6). Control is by temperature measurement (9) and / or pressure measurement (10).

The oil pump built into the compressor in the known devices is dismantled in the device according to the invention and replaced by a connecting piece. For the method according to the invention an external hermetically sealed oil pump (11) is connected with its own electric drive, which ensures a constant lubricating oil pressure at the varying speeds that the compressor has in this method.

At higher powers, the speed of the evaporator fans and of the condenser fans and / or pumps is also controlled by the speed controller (6). Control is by temperature measurement (9) and / or pressure measurement (10).

The device is equipped with a microprocessor control (7), in which the following measurement data is entered from the system: a. Various temperatures (9) · 35 b. various pressures (10) - c. energy absorption of compressors (1), fans (2) and (4) and / or pumps (3) and (5) by means of current measurement at the speed controllers (6).

d. position of the various electronically controlled valves (12) and servo motors (13).

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The measured data entered are compared and monitored.

The most efficient adjustments are determined from the energy measurements by gradually changing the various settings.

5 The regulation takes place by: a. Controlling the speed controllers (6), the electronically controlled valves (12) and the servomotors (13).

b. switching in the system of any lighting, electric or other heating and defrosting by means of hot 10 gas and / or electric.

c. display of temperatures, pressures and energy consumption.

d. signaling strong deviations and malfunctions in the system.

e. central reporting of data and malfunctions via telephone line or otherwise.

One or more evaporator units (14) operating in a certain evaporating temperature range and one or more condenser units (16) operating in a certain condensing temperature range are connected to the cooling compressor (1). When using multiple units in the same temperature range, the capacity is determined by the unit that needs the largest temperature range.

The other units are an electronically controlled gas and / or liquid control valve {12) reduced. The speed of the fans is also regulated. - - · 25 At the evaporators, effective heat exchangers (15) are placed between the liquid and suction lines, so that no extra losses occur between evaporator and compressor when reducing.

More widely spaced temperature ranges I / II / III, 30 different compressors (1) are cascaded. Each compressor with associated speed controller provides a certain temperature range.

With the stepped compressor circuit with speed control, the following is required for the entire system: 35 a. A suction pipe per temperature range.

b. a hot gas pipe, which can also be used for defrosting and heat recovery. cö a liquid line.

The speed control regularly absorbs the nominal load 40, resulting in higher evaporation temperatures and lower condensation temperatures on average.

The nominal load will be considerably lower than the top load, resulting in less loss on average due to moving parts (pistons, connecting rods, etc.) and resistance (of gas and liquid in pipes, valves, valves, etc.).

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Wear and average noise 2 are also reduced,

In this system, electronically controlled movement of gas, liquid and expansion valves is possible.

The use of hot gas defrosting not only saves by 5 'not using electric defrosting, but, due to the possibility of de-icing the evaporator at short intervals, a clean evaporator is almost always obtained. A few times a day the entire unit is then de-iced with cheap available heat from hot gas.

10 At certain intervals, the gas velocities in the system can be increased for a short time to ensure good oil transport.

In this system, peak loads and blocking times are absorbed or bridged, respectively. Switch-on peaks and high * starting currents are excluded with this system, which in many cases leads to lower costs of connection to the public network.

In the system, heat recovery for water and / or space heating is not at the expense of energy absorption.

Space cooling using this system is attractive.

Switching lighting on and off and controlling, for example, night-20 covers can be adapted to this.

Central monitoring and fault reporting remotely allow a fault to be repaired quickly, so that little damage can occur.

The piping system is very simple for installations with multiple * units and temperature ranges.

25 The speed control of the condenser fan (4) eliminates the need for an additional space heating fan directly from the condenser ";

The entire system provides significant energy savings. The system has a wide range of applications, such as for cooling cooling cells, closed and open refrigerators in supermarkets, installations for food technology, storage means in ports, means of transport (refrigerated transport), heating of living and working areas, heat pumps, etc.

(Conclusions) 8200310

Claims (7)

Method for cooling and / or heating with an electrically driven device, comprising one or more compressors, one or more evaporators and one or more condensers, characterized in that a fully or partly capacity-dependent proportional control of the speed of the compressor or compressors, fans, pumps and / or valves by frequency converters as well as using an oil pump independent of the compressor (s) in the system. 2. Method according to claim 1, characterized in that a hermetically sealed oil pump is used as an independent oil pump. Method for the method according to claim 1, characterized by an arrangement as shown in figure 1, comprising the following parts: Compressor (s) (1), driven by electric motor (s) (8), connected to evaporator unit (14) and heat exchanger (15), with evaporator fan (2), pump (3), condenser fan (4), pump (5), equipped with frequency converters (6) as speed controllers, controlled by microprocessor (7 ), with temperature measurement (9) and / or pressure-20 measurement (10), as well as electronically controlled valves (12), and servo motors (13) and equipped with separate self-propelled oil pump (11). 4. Cooling and / or heating unit, provided with means according to claim 3, operating according to the method as stated in claim 1 and / or 2. Heat pump device, provided with means according to claim 3, operating according to the method as shown in claim 1 and / or 2. 6. Stationary cooling unit, provided with means according to claim 3, operating according to the method as claimed in claim 1 and / or 2. Mobile cooling unit, provided with means according to claim 3, operating according to the method as shown in claim 1 and / or 2. 8200310