
PDF Publication Title:
Text from PDF Page: 297
TE pGC TCO2 MCO2 QTOT TSH [oC] 28.1-33.1 28.0-33.1 28.1-33.1 28.0-33.0 28.1-33.1 28.0-33.1 28.1-33.1 28.0-33.1 28.0-33.0 28.0-33.1 28.0-33.0 28.1-33.1 30.1-35.2 30.2-35.2 30.1-35.1 30.0-35.0 29.9-35.0 30.2-35.1 30.1-35.1 30.1/35.0 30.0-35.1 30.1-35.1 30.0-35.0 30.1-35.1 29.9-35.0 35.0-39.7 35.3-40.2 35.0-40.2 35.0-40.0 35.1-40.0 35.1-40.0 35.0-40.0 35.0-39.9 35.1-40.2 34.9-39.9 35.0-40.0 35.0-40.0 30.0-35.0 30.0-34.9 30.0-34.9 29.9-35.0 QSH TDHW [W] [oC] 2557 6.9-60.2 3423 6.9-60.1 3204 6.9-60.1 2984 6.6-60.2 3939 7.3-70.5 3821 7.2-70.3 3423 7.4-70.0 3110 7.1-70.1 4795 6.5-80.1 4400 6.6-80.1 4107 6.4-80.3 3766 6.5-80.4 1911 7.4-59.7 2728 7.4-60.7 2942 7.0-59.8 2596 6.7-59.7 3421 7.0-71.3 3635 6.7-70.0 3202 7.1-69.7 2994 6.4-70.4 4085 7.5-79.3 4196 7.4-80.1 3895 7.4-80.0 3548 7.5-80.7 3243 8.0-80.7 1313 7.0-60.4 1656 6.4-60.4 2190 6.2-60.4 2086 6.1-60.4 2117 6.4-70.0 2669 6.7-70.3 2652 6.7-70.6 2450 6.6-70.4 2745 6.9-79.3 2937 6.6-80.0 3129 7.0-80.4 2913 6.6-80.6 1558 7.1-60.4 2529 6.6-59.8 2404 5.9-59.8 2220 6.1-60.4 QDHW-P QDHW-R P COP [W] [W] [W] [-] 1303 1555 1609 3.36 1373 1975 1701 3.98 1363 2398 1775 3.92 1351 2849 1864 3.85 797 1507 1694 3.68 972 1927 1793 3.75 1108 2338 1883 2.65 1182 2728 1977 3.55 233 586 1647 3.41 595 1423 1798 3.57 742 1761 1893 3.49 913 2202 1987 3.40 1298 1513 1609 2.93 1674 1828 1699 3.67 1608 2357 1775 3.89 1550 2801 1878 3.70 929 1408 1704 3.38 1046 1729 1793 3.57 1253 2212 1893 3.52 1358 2561 1992 3.47 508 954 1713 3.24 614 1297 1803 3.39 797 1731 1869 3.44 905 2010 1930 3.35 996 2379 2053 3.22 2043 1768 1708 3.00 2711 2111 1770 3.66 2364 2583 1850 3.86 2091 3148 1940 3.78 1550 1707 1798 2.99 1766 2045 1855 3.49 1827 2503 1992 3.50 1810 2803 2053 3.44 874 1254 1798 2.71 1142 1700 1879 3.08 1300 2071 2006 3.24 1406 2269 2087 3.16 1385 1655 1619 2.84 1742 1900 1690 3.65 1434 2449 1756 3.58 1341 2941 1878 3.46 [oC] [bar] -5.1 75.34 -5.0 80.15 -5.0 85.15 -5.1 90.05 -5.0 80.10 -4.9 85.20 -5.0 90.25 -4.9 95.05 -5.1 80.10 -5.0 85.05 -5.0 90.15 -5.1 95.15 -5.0 75.50 -5.1 80.30 -5.1 85.00 -5.0 89.80 -5.1 80.05 -4.9 85.00 -5.0 90.60 -5.0 95.05 -5.0 80.25 -4.9 85.10 -5.1 89.55 -5.1 95.00 -5.1 99.85 -5.1 80.25 -5.1 85.20 -4.9 90.25 -4.9 94.95 -5.0 85.00 -5.1 89.80 -5.0 95.25 -5.0 99.90 -5.0 85.20 -5.1 89.75 -5.0 95.25 -5.0 99.85 -10.1 74.84 -10.1 79.90 -10.1 84.95 -10.1 90.00 [oC] 76.6-27.6 81.7-12.3 85.7-9.8 90.2-8.3 82.2-20.4 87.3-15.8 92.7-12.4 97.4-10.1 80.6-26.7 86.9-21.1 91.5-18.2 97.6-15.1 75.5-30.5 81.6-18.0 86.4-9.8 90.6-8.5 81.1-26.1 86.1-17.7 91.0-13.5 95.5-10.5 81.4-29.3 85.5-24.2 91.8-20.1 96.3-17.6 103-14.7 81.7-31.3 87.2-16.2 92.1-8.1 96.0-7.5 86.4-29.6 92.4-17.7 97.7-11.2 99.7-9.5 86.7-33.7 94.0-25.4 98.2-19.7 103.7-15.5 84.0-30.1 87.7-12.3 94.1-7.4 100.1-7.1 [kg/m] [W] 1.440 5415 1.445 6771 1.445 6965 1.420 7183 1.420 6243 1.415 6720 1.410 6869 1.405 7020 1.405 5615 1.418 6419 1.417 6610 1.405 6880 1.436 4722 1.440 6230 1.441 6907 1.442 6947 1.445 5758 1.455 6410 1.440 6668 1.425 6913 1.442 5547 1.460 6106 1.420 6423 1.390 6462 1.380 6618 1.445 5125 1.425 6478 1.410 7137 1.405 7325 1.430 5374 1.400 6480 1.410 6982 1.410 7064 1.435 4873 1.395 5780 1.420 6500 1.400 6589 1.235 4598 1.227 6171 1.200 6288 1.205 6502 Appendix C – Test Results for the Prototype CO2 Heat Pump Appendix C Test Results for the Prototype CO2 Heat Pump Reference is made to Section 5.1.3, Experimental Results, regarding a detailed presentation and analysis of the test results for the prototype brine-to-water CO2 heat pump unit. C1 CO2 Heat Pump Unit – Combined Heating Mode Variables: Subscripts: E=evaporator, GC=gas cooler, TOT=total, SH=space heating, DHW=hot water, DHW-P= preheating, T=temperature [oC], p=pressure [bar], M=mass flow rate [kg/min], Q=heating capacity [W], P=electric power input [W] DHW-R=reheating C1PDF Image | Residential CO2 Heat Pump System for Combined
PDF Search Title:
Residential CO2 Heat Pump System for CombinedOriginal File Name Searched:
20559406.pdfDIY PDF Search: Google It | Yahoo | Bing
CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
Heat Pumps CO2 ORC Heat Pump System Platform More Info
| CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com | RSS | AMP |