Show metadata Hide metadata

(19)

(11)

2 602 595

(13)

(51)

IPC

G01N25/18(2006-01-01)

(21) (22)

Application

2015112401/28, 2015-04-06

(24)

Start date

2015-04-06

(22)

Actual filing date

2015-04-06

(45)

Published

2016-11-20

(72)

Inventor

Pavlov Mikhail VasilevichKarpov Denis FedorovichSinitsyn Anton AleksandrovichPogodin Denis AlekseevichGavrilov Jurij SergeevichMonarkin Nikolaj NikolaevichMnushkin Nikolaj VitalevichAgafonov Vladimir AleksandrovichBerezin Pavel SergeevichBeljaev Kirill JurevichMaslova Marina Vladimirovna

(73)

Holder

Obshchestvo S Ogranichennoj Otvetstvennostju Nauchno-Proizvodstvennyj Tsentr I Energeticheskie Tekhnologii" NptsPavlov Mikhail VasilevichKarpov Denis FedorovichSinitsyn Anton Aleksandrovich

METHOD OF DETERMINING THERMAL CONDUCTIVITY COEFFICIENT OF LIQUID HEAT INSULATION IN NATURAL CONDITIONS Russian patent published in 2016 - IPC G01N25/18

Abstract RU 2602595 C1

FIELD: measurement technology.

SUBSTANCE: invention relates to stationary methods for determining thermal conductivity coefficient of liquid heat-insulating materials. Developed method may be used in construction and industrial heat power engineering for analysis in natural conditions of heat conducting properties of super-thin liquid heat-insulating coatings. Method involves measurements of temperature of inner and outer surfaces of flat outer walls, as well as heat flux density, passing from heated room through analysed flat outer wall into environment, before application of liquid heat insulation on one of surfaces of flat outer wall. After application of liquid heat insulation of known thickness on one of surfaces of flat outer wall is similar measurements (taking into account layer of liquid heat insulation). At known surface temperature flat outer walls and heat flux density before and after application of liquid heat insulation of known thickness is calculated by special formula heat conductivity coefficient of liquid heat insulation.

EFFECT: high accuracy of determining thermal conductivity coefficient of liquid heat insulation in natural conditions.

1 cl, 3 dwg

Similar patents RU2602595C1

Title	Year	Author	Number
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 FACTOR OF THERMAL CONDUCTIVITY LIQUID THERMAL ISOLATION ON SURFACE OF FLAT HEATING SOURCE	2015	Pavlov Mikhail Vasilevich Karpov Denis Fedorovich Sinitsyn Anton Aleksandrovich Pogodin Denis Alekseevich Mnushkin Nikolaj Vitalevich Agafonov Vladimir Aleksandrovich Belyaev Kirill Yurevich Berezin Pavel Sergeevich Pisarenko Viktor Anatolevich Pisarenko Evgeniya Petrovna Gorin Nikolaj Mikhajlovich Tikhov Andrej Evgenevich Ermalyuk Mikhail Petrovich Berezina Valeriya Pavlovna	RU2610348C1
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
METHOD OF DETERMINING THERMAL CONDUCTIVITY OF SOLID BODY OF CYLINDRICAL SHAPE UNDER STEADY TEMPERATURE CONDITION	2013	Pavlov Mikhail Vasil'Evich Karpov Denis Fedorovich Sinitsyn Anton Aleksandrovich Kaljagin Jurij Aleksandrovich Gavrilov Jurij Sergeevich Jurchik Marina Sergeevna Mnushkin Nikolaj Vital'Evich	RU2551663C2
DEVICE AND METHOD FOR COMPLEX DETERMINATION OF BASIC THERMOPHYSICAL PROPERTIES OF SOLID BODY	2013	Karpov Denis Fedorovich Pavlov Mikhail Vasil'Evich Sinitsyn Anton Aleksandrovich Kaljagin Jurij Aleksandrovich Sukhanov Igor' Andreevich Mnushkin Nikolaj Vital'Evich	RU2530473C1
METHOD OF DETERMINING THERMAL CONDUCTIVITY OF SOLID BODY BY ACTIVE METHOD OF HEAT NON-DESTRUCTIVE TESTING	2012	Karpov Denis Fedorovich Pavlov Mikhail Vasil'Evich Sinitsyn Anton Aleksandrovich Igonin Vladimir Ivanovich	RU2488102C1
METHOD TO DETERMINE HEAT CONDUCTIVITY OF LOOSE MATERIALS IN TRANSIENT THERMAL MODE	2012	Pavlov Mikhail Vasil'Evich Karpov Denis Fedorovich Sinitsyn Anton Aleksandrovich Kaljagin Jurij Aleksandrovich	RU2502988C1
METHOD TO DETERMINE TEMPERATURE CONDUCTIVITY OF SOLID BODY UNDER TRANSIENT THERMAL MODE	2012	Pavlov Mikhail Vasil'Evich Karpov Denis Fedorovich Sinitsyn Anton Aleksandrovich	RU2502989C1
ANALYSIS METHOD FOR NONSTEADY THERMAL CONDITION OF SOLID BODY	2012	Karpov Denis Fedorovich Pavlov Mikhail Vasil'Evich Sinitsyn Anton Aleksandrovich Kaljagin Jurij Aleksandrovich Gavrilov Jurij Sergeevich	RU2518224C1
METHOD OF DETERMINING HEAT CONDUCTIVITY AND TEMPERATURE CONDUCTIVITY OF SOLID-STATE BODY IN NONSTEADY THERMAL CONDITIONS	2011	Igonin Vladimir Ivanovich Karpov Denis Fedorovich Pavlov Mikhail Vasil'Evich	RU2460063C1

RU 2 602 595 C1

Authors

Pavlov Mikhail Vasilevich

Karpov Denis Fedorovich

Sinitsyn Anton Aleksandrovich

Pogodin Denis Alekseevich

Gavrilov Jurij Sergeevich

Monarkin Nikolaj Nikolaevich

Mnushkin Nikolaj Vitalevich

Agafonov Vladimir Aleksandrovich

Berezin Pavel Sergeevich

Beljaev Kirill Jurevich

Maslova Marina Vladimirovna

Dates

2016-11-20—Published

2015-04-06—Filed