SE467121B - SETTING AND DEVICE FOR MONITORING AND RECONDITIONING OF THE LIQUID FLOW IN HEATING AND COOLING SYSTEM - Google Patents

Abstract

A method for continuously monitoring and reconditioning the liquid flow in heating and cooling systems, wherein the system liquid, for instance water which may possibly contain standard additives, such as alcohol or glycol, is monitored and reconditioned in several mutually sequential steps within an apparatus unit integrated with the system, by taking from the total or main liquid flow a part flow which is returned to the main flow subsequent to reconditioning. The reconditioning process includes the following steps - subsequent to viewing the liquid by means of a viewing glass: magnetic filtration for removing magnetite particles; filtering-off solid particles (fine particles); removing corrosive gases; deaerating the system; measuring pH, oxygen content and conductivity, wherein an optical and/or electrical alarm signal is given in the event of deviations from mutually related liquid control-values inserted in the apparatus, or in the event of disturbances in operation. Apparatus for carrying out the method consists of a system-integrated unit which includes auxiliary devices for carrying out said part-operations successively.

Description

467 121 2 Recurring complaints to the heating or cooling producer: - uneven climate distribution.

- High operating costs. - Recurring downtime.

- Too cold in winter or too hot in summer.

All the above-mentioned problems can in many cases be due to the system fluid having poor chemical or physico-chemical condition, ie. it may have a composition or properties that cause corrosion. which in turn can cause leakage. the liquid can e.g. have an unsuitable pH value, which is not in the recommended range 8.5-9.5 for heating system water, or have a conductivity (salinity) that is too high and not below 200fJS / cm as recommended for heating system water or also the oxygen content is too high and is e.g. not below 0.05 mg / l at 95 ° C, as recommended.

Emerging problems also include that sludge formation in the liquid can cause malfunctions and coatings cause energy losses.

Another common problem is the presence of larger or smaller air bubbles in the system fluid. which leads to poorer heat exchange.

Methods and devices for eliminating at least some of the problems listed above have been described and used. Thus, e.g. in patent NO 160546 a device for aerating a closed liquid system for removing small air bubbles or steam bubbles by causing the bubbles to be combined into larger ones with greater lifting force and then by means of the device being removed from the system.

The entire liquid stream is then intended to pass through the device.

US-4,413,675 describes filters and sight glasses, built into the cooling system in the direct total flow between a motor and a radiator. A transparent line with built-in double, conformal strainers shall prevent clogging of the radiator, and 1/467 1.21 further the device enables visual control of the operation of the cooling water pump and thermostat and indicates corrosive liquid and relative flow. The device is said to be suitable for installation in the cooling system of internal combustion engines. The total coolant flow passes through the device before it is led to the radiator. if necessary, the strainers must be removed and cleaned, during which time the system is necessarily out of order.

US 4,793,403 discloses purification of a cooling system at an internal combustion engine, in which the entire amount of coolant is led to a zone (a device) outside the cooling system, where the liquid is treated to remove rust particles, deposits and sludge. The treatment includes filtration of impurities, addition of chemicals such as corrosion inhibitor. means for adjusting the pH and anti-corrosion agents, returning the coolant from the treatment zone to the cooling system of the engine and filtering the recurring coolant. Also in this case, the system must be disassembled for cleaning if necessary, during which time the system must be taken out of operation.

Finally, the brochure ASEA-ATOM BWR 75 describes purification of turbine condensate water by filtration of the water before it is returned to the reactor and also purification of reactor water by removing ionic and suspended impurities to obtain specified purity of the water in the reactor vessel by two parallel ion exchange units. bed filters, intended for radial flow.

Unlike the prior art described above, where certain γ conditioning steps are performed discontinuously. i.e. with associated outages, and on the total system water flow. The present invention relates to a method and device for continuous monitoring and improvement of the condition of a system fluid by having a branched partial flow of the system fluid, e.g. system water for a heating or cooling system, a monitoring and the following conditioning steps are carried out in turn within one and the same integrated unit device: filters out e.g. magnetite, - optimal filtration of particles down to the size 0.5 g, - all corrosive gases are removed, - the whole system is deaerated, - pH value, oxygen content and conductivity are measured.

In addition, alarm devices are introduced in the reconditioning system, which alarms optically and / or electrically in the event of operational disturbances and / or system fluid in poor condition. thus e.g. in the particle filtration, in the measurement of the liquid flow and in the measurement of pH value, oxygen content and conductivity.

The device according to the invention is installed for both remedial and preventive maintenance purposes and is operated, as mentioned. without interruption in the normal operation of the system fluid, since the necessary cleaning or replacement of e.g. filters take place in a divided substream, which after reconditioning is returned to the total supply system.

The above-mentioned conditioning steps do not necessarily have to be performed in the mentioned order. without mutual reversals of the steps can be done when it is convenient. The individual steps are performed with per se known sub-devices, which as such do not belong to the invention. The essential thing according to the invention is that the various individual conditioning steps are performed successively without interruption in the operation of the overall system. Experiments have shown that even in systems with extremely poor system water, the device and method according to the invention have improved in a "physico-mechanical" way the condition of the water to such an extent that previous chemical treatment has been abolished.

The attached drawing figure schematically shows an advantageous embodiment of the invention, i.e. successive reconditioning steps in a substream of a liquid-filled supply system. 5 É: 167 121 The figure shows: l fl vbhlkll-J. Flow meter with sight glass (system fluid in poor condition). Magnetic filtration _ Particle filtration (fine filtration). Degassing / deaeration. Measurement / control of a. PH b. Oxygen content c. Conductivity. Alarm and monitoring unit (system fluid in good condition)

Claims (2)

10 15 20 25 30 35 467 121 s Patent Claims A method of monitoring and reconditioning the liquid flow in a heating or cooling system, wherein the system liquid is controlled and freed from foreign harmful solid and gaseous substance, characterized in that the system liquid is monitored and reconditioned continuously and without interruption in its normal function by performing the reconditioning. in several successive steps within an integrated unit device on a partial stream divided from the total liquid flow, which after reconditioning is returned to the main flow, said reconditioning step comprising: - measuring the instantaneous liquid flow and inspecting the system liquid by means of sight glass at said unitary device, - magnetic filtration for the removal of any particles of magnetite, - filtration of solid particles (fine filtration), - removal of corrosive gases. - deaeration of the system, - measurement of pH, oxygen content and conductivity, whereby these different sub-steps can be reversed to their order as needed and whereby in the event of deviations from interrelated setpoints set within the device, which deviations indicate system fluid in poor condition, or in case of malfunction - the device alerts optically and / or electrically. Device for carrying out the method according to claim 1 for monitoring and reconditioning the liquid flow in a heating or cooling system, characterized in that it consists of an integrated unit device, connected in a partial flow divided from the total main flow, which device comprises the following successive sub-devices: - flow meter with sight glass (l) for the inspection of system fluid in poor condition. magnetic filter for removal of particles of magnetite, - filter (3) for removal of solid particles (fine filtration). (f, I »v 467 121 device (4) for removing corrosive gases and for venting the system, device (5) for measuring pH, oxygen content and conductivity alarm device (6) for emitting optical and / or I electrical alarm at deviations from mutually related setpoint maintenance or malfunction set within the device.