SYSTEM FOR AUTOMATED ONLINE DESIGN OF THERMAL ENERGY METERING UNITS OF BUILDINGS AND STRUCTURES, A HEAT METER AND A METHOD FOR OPTIMIZING THE COSTS OF THERMAL ENERGY CONSUMPTION Russian patent published in 2021 - IPC G06Q50/06 G01K17/16 

Abstract RU 2760176 C1

FIELD: thermal energy measuring.

SUBSTANCE: invention relates to systems and methods for designing a thermal energy metering unit (TEMU) and an automated metering unit (AMU) of buildings and structures. The system of automated online design of thermal energy metering units of buildings and structures contains a server with the possibility of remote access and execution of a variety of computer programs, a user interface made with the possibility of receiving a variety of data sets about component devices of a thermal energy metering unit (TEMU) or an automated metering unit (AMU), in which the server uses a variety of data sets to generate at least one solution containing the layout of connections between a variety of component devices of a TEMU or AMU, and in which the heat meter is selected based on the condition of the closest value of the calculated diameter dp of the measuring module in accordance with the possible preset values: 15, 25, 32, 40, 50, 65, 80, 100, 150, 200, 300 mm.

EFFECT: increase in the accuracy of design calculations and a reduction in the probability of errors in design calculations.

8 cl

Similar patents RU2760176C1

Title Year Author Number
CALIBRATION OF HEAT POWER AND HEAT CARRIER MEASUREMENT SYSTEM 2013
  • Shmeleva Anna Borisovna
RU2567433C2
METHOD OF CALIBRATING MEASURING SYSTEMS OF HEAT ENERGY ACCOUNTING UNITS AND CALIBRATING FLUID METERS AND DEVICE FOR ITS IMPLEMENTATION 2013
  • Shmeleva Anna Borisovna
RU2602748C2
HEAT METER AND METHOD OF MEASUREMENT OF HEAT ENERGY OF HEAT TRANSFER AGENT IN OPEN HEAT SUPPLY WATER SYSTEMS 2006
  • Teplyshev Vjacheslav Jur'Evich
  • Burdunin Mikhail Nikolaevich
  • Vargin Aleksandr Aleksandrovich
RU2300086C1
METHOD FOR CALIBRATION AND VERIFICATION OF MEASURING SYSTEM OF ACCOUNT UNIT OF HEAT ENERGY AND HEAT CARRIER TAKING INTO ACCOUNT PERTURBATIONS 2013
  • Shmeleva Anna Borisovna
RU2578046C2
METHOD AND DEVICE FOR MEASURING HEAT ENERGY AND FLOW RATE OF HEAT TRANSFER AGENT IN OPEN WATER HEAT SUPPLY SYSTEMS 2006
  • Teplyshev Vjacheslav Jur'Evich
  • Burdunin Mikhail Nikolaevich
  • Vargin Aleksandr Aleksandrovich
RU2310820C1
HEAT METER AND METHOD OF MEASUREMENT OF HEAT ENERGY OF HEAT TRANSFER AGENT IN OPEN HEAT SUPPLY WATER SYSTEMS 2006
  • Teplyshev Vjacheslav Jur'Evich
  • Burdunin Mikhail Nikolaevich
  • Vargin Aleksandr Aleksandrovich
RU2300088C1
HEAT METRE AND METHOD FOR DETECTION OF HEAT CARRIER THERMAL ENERGY WITH DIRECT MEASUREMENT OF FLOW RATES DIFFERENCE WITH COMPENSATION OF TEMPERATURE ERROR 2007
  • Teplyshev Vjacheslav Jur'Evich
  • Burdunin Mikhail Nikolaevich
  • Vargin Aleksandr Aleksandrovich
RU2383866C2
METHOD OF DETERMINING HEAT ENERGY CONSUMED BY INDIVIDUAL CONSUMER WHEN HEATING APARTMENT BUILDING WITH SINGLE-PIPE HEATING SYSTEM AND HEATING SYSTEM FOR REALISING SAID METHOD 2010
  • Surnov Sergej Ivanovich
  • Surnov Grigorij Sergeevich
  • Bychkovskij Igor' Anatol'Evich
RU2449250C1
ELEVATOR UNIT CONTROL SYSTEM WITH REGULATION OF THERMAL ENERGY CONSUMPTION 2021
  • Bezladnov Sergej Nikolaevich
  • Kolmogorov Aleksandr Nikiforovich
RU2769912C1
SYSTEM METERING THERMAL ENERGY 2002
  • Borzenkov E.V.
  • Zholobov A.A.
  • Ostanin V.A.
  • Shikov A.N.
  • Jurchakov V.P.
  • Jurchakov Ju.P.
RU2215999C1

RU 2 760 176 C1

Authors

Zhikharev Roman Vladimirovich

Chesnokov Dmitrij Yurevich

Dates

2021-11-22Published

2021-03-17Filed