Sanyo DE operation manual Absorption cooling cycle, Lower shell

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ENVIRONMENTALLY FRIENDLY TECHNOLOGY

Absorption cooling cycle

The SANYO super absorption machine applies the same basic absorption

The absorption cycle operates in a vacuum. This permits the liquid refriger-

SUPER ABSORPTION

D. High temperature generator section

principles but enhances the cycle by adding additional heat exchangers and a second generator to recover all the available energy of the system and maximize the unit's COP (see Figure 2).

ant to boil at a lower temperature, transferring the latent heat of evaporation from the entering chilled water to cooling the chilled water.

Below is a component description of the absorption cycle with reference to the D¨uhring diagram shown in Graph 10 at page 16.

The diluted solution from the heat exchangers is heated by the burner or steam upon entering the high temperature generator and separates into re- frigerant vapor and intermediate solution (see Figure 6).

Line D' to E of Graph 10 shows the heating and concentration process in the high temperature generator. The diluted solution at point D' is heated at a

constant concentration to point D, where the refrigerant vapor is released and the solution becomes concentrated to 60.8% (point E, Graph 10). Following the intermediate solution, Line E to F' of Graph 10 shows heat transfer from the intermediate solution to the diluted solution in the high tem- perature heat exchanger (see Figure 5).

Figure 4. Lower shell

Liquid refrigerant

Concentrated solution

Chilled water outlet

Chilled water inlet

Evaporator Absorber

E. Low temperature generator section

The refrigerant vapor from the high temperature generator passes through the heat transfer tubes of the low temperature generator (see Figure 7). The intermediate solution from the high temperature heat exchanger passes to the low temperature generator where it is heated by the refrigerant vapor. The heated intermediate solution releases additional refrigerant vapor and becomes concentrated to its final level. The condensed refrigerant in the heat transfer tubes and the refrigerant vapor of the low temperature genera- tor section then flows to the condenser.

Line F' to F to G of Graph 10 shows the concentrating process in the low

temperature generator. The intermediate solution enters the low tempera- ture generator and is heated by the refrigerant vapor from the high tempera- ture generator. Additional refrigerant vapor is released and the intermediate solution becomes concentrated into its final concentration level of 63.7% (point G, Graph 10).

Following the concentrated solution, Line G to A' of Graph 10 shows the process of temperature reduction in the low temperature heat exchanger by heat transfer to the diluted solution (Figure 5). Line A' to A shows the tem- perature reduction of the concentrated solution entering the absorber.

Diluted solution

Refrigerant pump

 

Absorbent pump

Cooling water inlet

Figure 6. High temperature generator

Exhaust gas

Refrigerant vapor

A. Evaporator section

Liquid refrigerant entering the evaporator is dispersed uniformly on the chilled water evaporator tubes (see Figure 4).

The low pressure of the evaporator causes the refrigerant to be boiled, thus

B. Absorber section

Concentrated solution entering the absorber is dispersed uniformly on the cooling water tubes (see Figure 4). The concentrated solution in the absorber section absorbs the refrigerant vapor from the evaporator section of the ves- sel.

Cooling water flowing through the absorber section heat transfer tubes ex- tracts the heat generated by this absorption process. The concentrated solu- tion, after absorbing the refrigerant vapor from the evaporator, becomes a diluted solution.

C. Low and high temperature heat exchangers

The diluted solution, after leaving the absorber section, passes through the low temperature heat exchanger (see Figure 5) where it is heated by the concentrated solution. The diluted solution then passes through the high tem- perature heat exchanger where it is further heated by intermediate solution. The intermediate and concentrated solutions are cooled by the diluted solu-

vaporizing the refrigerant and causing the latent heat of the vaporized refrig- erant to cool the chilled water.

Line A to B of Graph 10 describes the process in the absorber. The concen- tration of the lithium bromide solution entering the absorber section is 63.5% (all concentration levels and temperatures are approximate). The lithium bro- mide solution then absorbs the refrigerant vapor from the evaporator section and is cooled from 50° C to 37° C by the cooling water. This causes the bro- mide solution to become diluted and it then leaves the absorber at a concen- tration of 57.7% (point B, Graph 10).

tion. This cooling process of the concentrated solution allows for greater ab- sorbing power due to its lower temperature.

Line B to C to D' of Graph 10 shows the temperature rise of the diluted solution in the low and high temperature heat exchangers.

High temperature generator

Burner

Intermediate solution

Diluted solution

Figure 5. Heat exchangers

Concentrated Intermediate

solutionsolution

Diluted solution

Low temperature

High temperature

heat exchanger

heat exchanger

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Contents Making the World a More Comfortable Place Contents Electrical peak power shaving Heating and cooling operationDouble effect absorption cycle Many applicationsExpert function by self-diagnosis Graph 2. Tendency of absorbent concentrationSanyo control system Display and control boardGenerator temp 149 C Exhaust gas temp 236 C CH W temp 12.3 7.1 CSpeedy digital PID control Saving energy with the inverterPurge system Steam valve opening controlHigh temperature generator safety control Expansion of safety operating zoneDouble effect type Crystallization protectionAbsorption cooling cycle Lower shellSchematic cooling cycle Upper shellLow Temperature Generator Cooling cycleHeating cycle Cooling Water outletDouble effect direct-fired absorption chiller / heaters Scope of supply DE Scope of order DECOW Hole33ø DE-31ThruDE-32 ABC DEF Foundation dimensional data DE Control panel DETo mount the chiller Detail of weld . Washers are supplied with the chillerStop Field wiring DEStart Stop signal Chiller stop 36 secIgnition Ignition gasFlue flange dimensional data Field supply Steel material Dimensional dataFlue & stack connection Typical steel stackBurner description Gas trainGeneral remarks on piping work Typical piping diagram DECooling cycle schematic Double effect steam-fired absorption chillers Scope of supply NE Scope of order NE877 341 329 2311 1896 1003 364 2089 Eitherside CHWin 3289 3104 3400 1078 396 Out 1515 410 684 COWin R700 2930 1971 33hole Wireconnectionø Out Connectionø41 Wire Out 140 Foundation dimensional data NE Control panel NEField wiring NE Typical electrical field connection diagram Steam-fired NETypical piping diagram-laying NE General remarks on piping-laying workHot water-fired absorption chillers Main unit Rust preventive paint Control panel Finish paint Scope of supply LEScope of order LE BCD 2255 835 926 Side Spaceeither COWinlet Tuberemoval COWoutlet 976 Side 3886 4500 Removalspaceeither Tube Customer.the LEThru52-LE 57.FigureGenerator temp 69 C Foundation dimensional data LEControl panel LE Field wiring LE For emergency stop signalTypical piping diagram-laying LE Work outside the area surrounded by this lineCapacity ratings DE and NE Capacity ratings LEFlowrate Dropcurve Pressure WaterCooling pressure drop LEcurve Location and space requirements Water pipingField piping instruction Leveling requirementsInsulation DE Insulation NE Insulation dataInsulation LE Rupture disk mountingQuality control of cooling water Water treatmentCooling water blow system

DE specifications

Sanyo DE is an innovative line of home appliances and electronics that showcases Sanyo's commitment to quality, efficiency, and user-centered design. This series includes various products, such as air conditioners, refrigerators, and microwaves, all engineered to enhance the everyday living experience.

One of the standout features of Sanyo DE appliances is their energy efficiency. Many models are equipped with advanced technologies that adhere to stringent energy-saving standards, helping consumers reduce their electricity bills while minimizing their environmental footprint. The use of inverter technology in air conditioners, for instance, allows for precise temperature control and significant reductions in energy consumption.

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In terms of design, Sanyo DE products are crafted to blend seamlessly into modern homes with sleek and contemporary aesthetics. The intuitive user interfaces are designed for ease of use, featuring clear displays and simple controls, allowing users of all ages to operate the appliances without any hassle.

Furthermore, Sanyo DE pays attention to noise reduction. Many appliances incorporate sound dampening technologies, making them ideal for use in residential settings, where quiet operation is critical. Whether it’s a refrigerator running seamlessly in the background or an air conditioner cooling the room without disruption, Sanyo DE ensures a pleasant home atmosphere.

Overall, Sanyo DE exemplifies a fusion of advanced technology, energy efficiency, and user-friendly design. With a diverse range of appliances, Sanyo DE is committed to enhancing the lives of its users through thoughtful innovation and reliable performance.