A horizontal suction accumulator generally includes a tank, an inlet tube, and an outlet tube. The tank extends in a horizontal direction and is configured to receive a refrigerant. The refrigerant includes a vapor and a liquid. The tank stores the liquid refrigerant and discharges the vapor refrige
A horizontal suction accumulator generally includes a tank, an inlet tube, and an outlet tube. The tank extends in a horizontal direction and is configured to receive a refrigerant. The refrigerant includes a vapor and a liquid. The tank stores the liquid refrigerant and discharges the vapor refrigerant. The inlet tube supplies into the tank an inlet stream that includes the liquid and vapor refrigerants. The inlet tube extends into the tank and is bent upward at an acute angle. The liquid refrigerant is stored in the tank. The vapor refrigerant is discharged through the outlet tube, which extends offset from the inlet tube and into the tank. The inlet tube defines an inlet opening positioned at a first elevation, the outlet tube defines an outlet opening positioned at a second elevation, and the first and second elevations are substantially the same.
대표청구항▼
1. A refrigeration system comprising: a compressor for receiving a vapor refrigerant and compressing the vapor refrigerant to form a compressed refrigerant;a condenser for receiving the compressed refrigerant, whereupon the compressed refrigerant is condensed to form a liquid refrigerant;an evaporat
1. A refrigeration system comprising: a compressor for receiving a vapor refrigerant and compressing the vapor refrigerant to form a compressed refrigerant;a condenser for receiving the compressed refrigerant, whereupon the compressed refrigerant is condensed to form a liquid refrigerant;an evaporator for receiving the liquid refrigerant, vaporizing at least a portion of the liquid refrigerant, thereby forming the vapor refrigerant and a remaining liquid refrigerant, and discharging the vapor refrigerant and the remaining liquid refrigerant; anda tank for receiving the vapor refrigerant and the remaining liquid refrigerant from the evaporator, the tank storing the remaining liquid refrigerant and discharging the vapor refrigerant, wherein the tank extends in a horizontal direction and includes an inlet tube extending into the tank and being bent upward at an acute angle; andan outlet tube extending offset from the inlet tube and into the tank, wherein the inlet tube defines an inlet opening positioned at a first elevation, the outlet tube defines an outlet opening positioned at a second elevation, and the first and second elevations are substantially the same,wherein the inlet tube includes a tank section disposed within the tank, the tank section including a horizontal portion extending in the horizontal direction, and a bent portion adjacent to the horizontal portion and bent upward from the horizontal portion at the acute angle. 2. The system of claim 1, wherein the inlet tube angle is so dimensioned as to substantially prevent foaming or agitation of the stored liquid refrigerant. 3. The system of claim 1, wherein the tank also receives oil from the evaporator, and further wherein the inlet tube angle is so dimensioned as to facilitate the separation of the oil from the liquid refrigerant. 4. The system of claim 1, wherein the inlet tube angle is approximately 30°. 5. The system of claim 1, wherein the evaporator receives at least a portion of the compressed refrigerant for defrosting. 6. A horizontal suction accumulator comprising: a tank extending in a horizontal direction, the tank configured to receive a refrigerant, the refrigerant including a vapor and a liquid, the tank storing the liquid refrigerant and discharging the vapor refrigerant;an inlet tube for supplying the refrigerant, the inlet tube extending into the tank and being bent upward at an acute angle; andan outlet tube for discharging the vapor refrigerant, the outlet tube extending offset from the inlet tube and into the tank, wherein the inlet tube defines an inlet opening positioned at a first elevation, the outlet tube defines an outlet opening positioned at a second elevation, and the first and second elevations are substantially the same,wherein the inlet tube includes a tank section disposed within the tank, the tank section including a horizontal portion extending in the horizontal direction, and a bent portion adjacent to the horizontal portion and bent upward from the horizontal portion at the acute angle. 7. The accumulator of claim 6, wherein the inlet tube angle is so dimensioned as to substantially prevent foaming or agitation of the liquid refrigerant. 8. The accumulator of claim 6, wherein the inlet tube also supplies oil, and further wherein the inlet tube angle is so dimensioned as to facilitate the separation of the oil from the liquid refrigerant. 9. The accumulator of claim 6, wherein the inlet tube angle is approximately 30°. 10. A method of storing a liquid refrigerant in a horizontal tank, the method comprising: supplying an inlet stream into the tank through an inlet tube, the inlet stream including the liquid refrigerant and a vapor refrigerant;storing the liquid refrigerant in the tank; anddischarging the vapor refrigerant through an outlet tube, wherein the inlet tube is bent upward at an acute angle and defines an inlet opening positioned at a first elevation, the outlet tube defines an outlet opening positioned at a second elevation, and the first and second elevations are substantially the same,supplying the inlet stream through a tank section of the inlet tube, wherein supplying the inlet stream through the tank section of the inlet tube includes: directing the inlet stream through a horizontal portion of the tank section that extends in the horizontal direction, anddirecting the inlet stream through a bent portion of the tank section that is adjacent to the horizontal portion and is bent upward from the horizontal portion at the acute angle. 11. The method of claim 10, wherein the liquid refrigerant is separated from the vapor refrigerant in the tank by deflecting the inlet stream off of an upper portion of the tank. 12. The method of claim 10, wherein the inlet tube angle is so dimensioned as to substantially prevent foaming or agitation of the liquid refrigerant. 13. The method of claim 10, wherein the inlet stream also includes oil, and further wherein the inlet tube angle is so dimensioned as to facilitate the separation of the oil from the liquid refrigerant. 14. The method of claim 10, wherein the inlet tube angle is approximately 30°.
Kozinski, Richard C., Air conditioning system utilizing at least one evaporator with continuous refridgerant flow through an auxiliary unit during shut off.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.