101 |
Refrigerating apparatus |
US52079431 |
1931-03-07 |
US1916031A |
1933-06-27 |
ALLYNE EDMUND E |
|
102 |
Refrigerating plant |
US22285027 |
1927-09-29 |
US1776745A |
1930-09-23 |
IVAR AMUNDSEN |
|
103 |
Refrigerating plant |
US22284927 |
1927-09-29 |
US1776744A |
1930-09-23 |
IVAR AMUNDSEN |
|
104 |
Absorption refrigerating machine |
US29419928 |
1928-07-20 |
US1770607A |
1930-07-15 |
GEORGE FERGUSON |
|
105 |
Refrigerating device |
US20190427 |
1927-06-27 |
US1740737A |
1929-12-24 |
FORBES KEITH DAVID |
|
106 |
hochherz |
US1697187D |
|
US1697187A |
1929-01-01 |
|
|
107 |
Refrigerating apparatus |
US26461828 |
1928-03-26 |
US1671531A |
1928-05-29 |
LEO KUHL |
|
108 |
Condenser |
US70617824 |
1924-04-12 |
US1663995A |
1928-03-27 |
BRYANT FORREST L |
|
109 |
Absorption refrigerating apparatus |
US6643625 |
1925-11-03 |
US1646520A |
1927-10-25 |
GAUDENZ BAYER |
|
110 |
Refrigeration system |
US65418023 |
1923-07-27 |
US1627808A |
1927-05-10 |
SCHURTZ RALPH E |
|
111 |
Refrigerating apparatus |
US72029424 |
1924-06-16 |
US1609145A |
1926-11-30 |
PAUL VUILLAUME |
|
112 |
Refrigerating system or apparatus |
US67210823 |
1923-11-01 |
US1601935A |
1926-10-05 |
WUNNENBERG CHARLES N |
|
113 |
Refrigerating apparatus |
US56636722 |
1922-06-06 |
US1498123A |
1924-06-17 |
EDMUND RUMPLER; ALBERT RENNAU |
|
114 |
Said jankus |
US1470638D |
|
US1470638A |
1923-10-16 |
|
|
115 |
Freezing machine of the absorption type |
US59201622 |
1922-10-03 |
US1467053A |
1923-09-04 |
LUDWIG MACH |
|
116 |
Ice machine |
US1914823067 |
1914-03-07 |
US1455823A |
1923-05-22 |
WILLSIE HENRY E |
|
117 |
Refrigerating and ice-making apparatus. |
US2878415 |
1915-05-17 |
US1169675A |
1916-01-25 |
PFLEIDERER WALTER |
|
118 |
Ice-making machine. |
US1082944D |
|
US1082944A |
1913-12-30 |
GRAAFF WILHELM |
|
119 |
ABSORPTION HEAT PUMP AND METHOD FOR OPERATING AN ABSORPTION HEAT PUMP |
US15680379 |
2017-08-18 |
US20180051919A1 |
2018-02-22 |
Andreas Bangheri |
An absorption heat pump having a generator, a heat source to heat the generator to drive coolant vapor out of solution, a condenser for cooling the coolant vapor and an expansion valve that expand the coolant fluid as well as an evaporator for at least partial evaporation of the expanded coolant fluid against a medium which is connected to at least one absorber which absorbs the expanded coolant fluid. A hot gas line which branches off from a line for coolant vapor upstream of the condenser and is fluid-connected to the evaporator such that it bypasses the condenser and the expansion valve, a defrosting valve being provided in the hot gas line, by means of which the flow of coolant vapor through the hot gas line can be controlled. The absorption heat pump is operated in a cyclic circulation process. |
120 |
Entrochemical energy transfer system and a process for obtaining work from environmental thermal energy |
US14606671 |
2015-01-27 |
US09702633B2 |
2017-07-11 |
Sanza T. Kazadi |
An entrochemical energy transfer system and a related process for obtaining work from environmental thermal energy are disclosed. In one example, a plurality of linked entrochemical cells with nested chambers provides an aggregate thermal gradient of each entrochemical cell by transferring environmental thermal energy in and/or out of the plurality of linked entrochemical cells. The aggregate thermal gradient generated from the plurality of linked entrochemical cells can be utilized as an environmentally-friendly energy source for human needs. The entrochemical energy transfer system and the related process for obtaining work from environmental thermal energy utilize a set of entropy transfers from Earth's day and night thermal energy inflows and outflows. Furthermore, in one example, the process for obtaining work from environmental thermal energy involves two steps, each step resulting in entropic increases and transfers. |