Show metadata Hide metadata

(19)

(11)

2 490 619

(13)

(51)

IPC

G01N25/18(2006-01-01)

(21) (22)

Application

2012100470/28, 2012-01-10

(24)

Start date

2012-01-10

(22)

Actual filing date

2012-01-10

(45)

Published

2013-08-20

(72)

Inventor

Pravnik Jurij IosifovichSadykov Renat AkhatovichManeshev Ivan OlegovichEremin Sergej AleksandrovichIvanova Rositsa VidovnaAdaev Ehduard Vilevich

(73)

Holder

Federal'Noe Gosudarstvennoe Bjudzhetnoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Gosudarstvennyj Arkhitekturno-Stroitel'Nyj Universitet"Sadykov Renat Akhatovich

METHOD OF DETERMINING EFFICIENCY FACTOR OF SUPER-THIN LIQUID HEAT-INSULATING COATINGS Russian patent published in 2013 - IPC G01N25/18

Abstract RU 2490619 C1

FIELD: physics.

SUBSTANCE: efficiency factor of super-thin liquid heat-insulating coatings is determined using a multilayer plane-parallel wall. The problem is solved based on the principle of determining specific heat flow with and without insulation and using the formula $η_{i} = 1 - \frac{q_{w i t h i}}{q_{w i t h a c t i}}$ to find the efficiency factor of super-thin liquid heat-insulating coatings.

EFFECT: enabling determination of the efficiency factor of heat insulation in conditions imitating operation of heat insulation in real conditions.

1 dwg

Similar patents RU2490619C1

Title	Year	Author	Number
METHOD OF DETERMINING THERMAL CONDUCTIVITY COEFFICIENT OF SUPER-THIN LIQUID HEAT-INSULATING COATINGS	2011	Pravnik Jurij Iosifovich Sadykov Renat Akhatovich Ivanova Rositsa Vidovna Maneshev Ivan Olegovich Krajnov Dmitrij Vladimirovich Adaev Ehduard Vilevich	RU2478936C1
METHOD OF DETERMINING THERMAL CONDUCTIVITY COEFFICIENT OF LIQUID HEAT-INSULATING COATINGS	2014	Boyarintsev Aleksandr Valerevich	RU2594388C2
METHOD OF DETERMINING HEAT CONDUCTIVITY COEFFICIENT OF HEAT-INSULATING COATINGS BASED ON HOLLOW MICROSPHERES USING THERMAL IMAGER	2019	Boyarintsev Aleksandr Valerevich	RU2731112C1
METHOD TO DETERMINE COEFFICIENT OF HEAT CONDUCTIVITY OF LIQUID HEAT INSULATION IN LABORATORY CONDITIONS	2014	Pavlov Mikhail Vasil'Evich Karpov Denis Fedorovich Sinitsyn Anton Aleksandrovich Mnushkin Nikolaj Vital'Evich Monarkin Nikolaj Nikolaevich	RU2568983C1
METHOD FOR DETERMINING HEAT TRANSFER COEFFICIENT AND THERMAL CONDUCTIVITY COEFFICIENT OF THERMAL INSULATION COATINGS BASED ON HOLLOW MICROSPHERES BY MEASURING ACTUAL HEAT LOSS IN STATIONARY CONDITIONS	2020	Boyarintsev Aleksandr Valerevich	RU2752469C1
THERMAL PROBE FOR MEASURING TEMPERATURE OF MEDIUM IN PROCESS UNIT WITH LINING	1993	Kurepin B.N. Zantsev V.K. Guseva N.B. Gusev V.I. Ataev O.A.	RU2045050C1
METHOD OF DETERMINING THERMAL CONDUCTIVITY COEFFICIENT OF LIQUID HEAT INSULATION AT NON-STATIONARY THERMAL MODE	2016	Pavlov Mikhail Vasilevich Karpov Denis Fedorovich Pogodin Denis Alekseevich Monarkin Nikolaj Nikolaevich Agafonov Vladimir Aleksandrovich Belyaev Kirill Yurevich Berezin Pavel Sergeevich Ermalyuk Mikhail Petrovich Tikhov Andrej Evgenevich Tumanova Nataliya Sergeevna Berezina Valeriya Pavlovna Karpov Fedor Dmitrievich	RU2646437C1
GEAR TESTING FLAME-RETARDANT COATS	1995	Il'In N.A.	RU2092821C1
DEVICE MEASURING THERMAL CONDUCTIVITY	1997	Gusejnov G.G.	RU2124717C1
WATERPROOFING COATING OF ULTRA-THIN THERMAL INSULATION BASED ON HOLLOW MICROSPHERES PROVIDING PROTECTION AGAINST MECHANICAL, CHEMICAL EXPOSURE OF AGGRESSIVE MEDIA	2021	Boyarintsev Aleksandr Valerevich	RU2760555C1

RU 2 490 619 C1

Authors

Pravnik Jurij Iosifovich

Sadykov Renat Akhatovich

Maneshev Ivan Olegovich

Eremin Sergej Aleksandrovich

Ivanova Rositsa Vidovna

Adaev Ehduard Vilevich

Dates

2013-08-20—Published

2012-01-10—Filed