RU2003109700A - DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT - Google Patents

DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT Download PDF

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Publication number
RU2003109700A
RU2003109700A RU2003109700/06A RU2003109700A RU2003109700A RU 2003109700 A RU2003109700 A RU 2003109700A RU 2003109700/06 A RU2003109700/06 A RU 2003109700/06A RU 2003109700 A RU2003109700 A RU 2003109700A RU 2003109700 A RU2003109700 A RU 2003109700A
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RU
Russia
Prior art keywords
ammonia
carbon dioxide
turbine
heat
radiator
Prior art date
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RU2003109700/06A
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Russian (ru)
Inventor
Василий Иванович Мазий (RU)
Василий Иванович Мазий
Original Assignee
Василий Иванович Мазий (RU)
Василий Иванович Мазий
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by Василий Иванович Мазий (RU), Василий Иванович Мазий filed Critical Василий Иванович Мазий (RU)
Priority to RU2003109700/06A priority Critical patent/RU2003109700A/en
Publication of RU2003109700A publication Critical patent/RU2003109700A/en

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Claims (2)

1. Устройство получения энергии из тепла воды, состоящее из углекислой турбины, жидкостного насоса, аммиачного компрессора, реактивной аммиачной турбины, трубопровода проточной воды, радиаторов и теплообменников, отличающееся тем, что выход из аммиачного компрессора (6) связан с аммиачным теплообменником конденсации и охлаждения паров аммиака (7), выход из которого связан с входом в реактивную аммиачную турбину (9), выход из которой связан с теплообменником кипения аммиака (10), выход из которого связан с радиатором кипения аммиака (11), выход из которого связан с входом в аммиачный компрессор (6), выход их углекислого жидкостного насоса высокого давления (1) связан с углекислым радиатором кипения углекислого газа (2), выход из которого связан с входом в углекислую турбину (3), выход из которой связан с углекислым радиатором конденсации паров углекислого газа (4), выход из которого связан с входом в углекислый жидкостный насос высокого давления (1), потребитель энергии (13) углекислая турбина (3) углекислый жидкостный насос высокого давления (1), аммиачный компрессор (6), реактивная аммиачная турбина (9) - все установлены на одном валу.1. A device for generating energy from heat of water, consisting of a carbon dioxide turbine, a liquid pump, an ammonia compressor, a reactive ammonia turbine, a flowing water pipe, radiators and heat exchangers, characterized in that the output from the ammonia compressor (6) is connected to an ammonia condensation and cooling heat exchanger ammonia vapors (7), the exit from which is connected to the entrance to the reactive ammonia turbine (9), the exit from which is connected to the ammonia boiling heat exchanger (10), the exit from which is connected to the ammonia boiling radiator (11), the exit and which is connected to the entrance to the ammonia compressor (6), the output of their carbon dioxide liquid high pressure pump (1) is connected to the carbon dioxide radiator for boiling carbon dioxide (2), the output of which is connected to the entrance to the carbon dioxide turbine (3), the output of which is connected with carbon dioxide radiator for the condensation of carbon dioxide vapor (4), the output of which is connected to the entrance to the carbon dioxide high pressure liquid pump (1), energy consumer (13) carbon dioxide turbine (3) carbon dioxide high pressure liquid pump (1), ammonia compressor (6) reactive ammonia a turbine (9) - are all fixed on the same shaft. 2. Способ получения энергии из тепла воды путем использования теплового жидкостного насоса, аммиачного компрессора (6) с коэффициентом теплопроизводительности γ=3,46, как источника тепла Т2=Т3=370К; Т4=313К с одной стороны и источника холода Т5=Т1=260К с другой стороны, путем использования углекислой турбины, для преобразования энергии сжатого нагретого углекислого газа Т3=353К РЗ=156,88 т/см2 в полезную работу и передачи остатков энергии частью радиатору кипения аммиака (11), частью теплообменнику кипения аммиака (10) Т4=Т1=303К Р1=70,6688 кг/см2, теплообменник (10) совместно с радиатором (4) обеспечивают регенерацию тепла.2. A method of generating energy from the heat of water by using a heat liquid pump, an ammonia compressor (6) with a heating coefficient of γ = 3.46, as a heat source T2 = T3 = 370K; T4 = 313K on the one hand and a cold source T5 = T1 = 260K on the other hand, by using a carbon dioxide turbine to convert the energy of compressed heated carbon dioxide T3 = 353K RZ = 156.88 t / cm 2 into useful work and transfer part of the remaining energy the ammonia boiling radiator (11), part of the ammonia boiling heat exchanger (10) T4 = T1 = 303K P1 = 70.6688 kg / cm 2 , the heat exchanger (10) together with the radiator (4) provide heat recovery.
RU2003109700/06A 2003-04-08 2003-04-08 DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT RU2003109700A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
RU2003109700/06A RU2003109700A (en) 2003-04-08 2003-04-08 DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
RU2003109700/06A RU2003109700A (en) 2003-04-08 2003-04-08 DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT

Publications (1)

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RU2003109700A true RU2003109700A (en) 2005-01-20

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RU2003109700/06A RU2003109700A (en) 2003-04-08 2003-04-08 DEVICE AND METHOD FOR PRODUCING ENERGY FROM WATER HEAT

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EA029633B1 (en) * 2013-07-24 2018-04-30 Фамиль Иззят Оглы Бафадаров Device for conversion of thermal energy to electric energy

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EA029633B1 (en) * 2013-07-24 2018-04-30 Фамиль Иззят Оглы Бафадаров Device for conversion of thermal energy to electric energy

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FA92 Acknowledgement of application withdrawn (lack of supplementary materials submitted)

Effective date: 20070528