. Le moteur à vapeur et les autres moteurs thermiques. ed, C = icKP(T±-T3), où T4 = température finale de l'air froid. Théoriquement, pour produire un cycle, T4 devrait être égal à T0. En d'autres termes, la température initiale de la substance a nécessité la température finale de l'air froid qui a provoqué le refroidissement- 532 LE MOTEUR À VAPEUR ET LES AUTRES MOTEURS THERMIQUES. Et la température initiale de l'air entrant dans le compresseur la puissance requise par course = ai-^.2;Q2=A1-A2+C; Ta-T to-T, l'efficacité E = ^ ^ ^ ^ ou ^ ^ ^ ^ ^ théoriquement, ^o ^2 zv système de compression d'ammoniac.—Fig. 264 est un diagramme

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. The steam-engine and other heat-motors. ed, C = icKP(T±-T3), where T4 = final temperature of the cold air. Theoretically, to produce a cycle, T4 should equal T0. In other words, the initial temperature of the substance to bechilled the final temperature of the cold air that caused the chill- 532 THE STEAM-ENGINE AND OTHER HEAT-MOTORS. ing and the initial temperature of the air entering the compressor The power required per stroke = Ai-^.2;Q2=A1-A2+C; Ta-T To-T, The efficiency E = ^ _ ^ _ ^ _ ^ or ^ _ ^ _ ^ _ ^ Theoretically, ^o ^2 zv Ammonia Compression System.—Fig. 264 is a diagrammaticsketch illustrating the fundamental elements of an ammonia com-pression system. In a reservoir, R, is a supply of liquid andgaseous ammonia under a pressure of 150-200 pounds per squareinch. By opening a valve, a, capable of very fine adjustment— -VfTn..., , 1, 1, 1.1, *, 1, 1.1, 1 n .1, 1 .l.iiNi, , ..!, 1 >?:., M, iJ *|l-1-H..I.Jtlt., !! ^ ^ „ iiii ;i v1i Tiiiin! ini imi .1 ihirm !, /;ini. iii i! I !, i!.m i4fe i, i I i iiii!1 , Ij, i i r P D c. Fig. 264. generally a needle-valve—the liquid ammonia is admitted intothe tubes, B, enclosed in brine. The pressure and temperaturein these tubes are quite low, some 30 pounds absolute and 0° F., for instance, as they are on the suction side of the compressorcylinder. On the delivery stroke of the piston of this cylinder REFRIGERA 770V. 533 the ammonia that had become completely gasefied and finallysuperheated by its free expansion at the low pressure in thetubes, B, is compressed up to a pressure as high or a trifle higherthan that in the reservoir. The high superheat arising from thiscompression is removed by the action of the cooling-water onthe tubes of the condenser, C, through which the gas flows onits way to the reservoir R. Under practically constant pressure thegas gives up first its superheat and then its latent heat, andtrickles back into the reservoir as liquid ammonia. The conversion of the liquid into gaseous ammonia in thetubes,