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GB/T 37390-2019 (GBT37390-2019)

GB/T 37390-2019_English: PDF (GBT 37390-2019, GBT37390-2019)
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BASIC DATA
Standard ID GB/T 37390-2019 (GB/T37390-2019)
Description (Translated English) Guides for energy efficiency assessment of hot rolling process
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard H04
Classification of International Standard 77.010
Word Count Estimation 14,197
Date of Issue 2019-03-25
Date of Implementation 2020-02-01
Drafting Organization China Metallurgical South Engineering Technology Co., Ltd., Metallurgical Industry Information Standards Research Institute, Jiangsu Suchuang Pipe Technology Co., Ltd., Jiangsu Shagang Group Co., Ltd., Zhangjiagang Changli Machinery Co., Ltd., Shanghai Oteng Industrial Co., Ltd., Gansu Jiugang Group Hongxing Iron and Steel Co., Ltd., Hebei Jinxi Iron and Steel Group Co., Ltd.
Administrative Organization National Steel Standardization Technical Committee (SAC/TC 183)
Proposing organization China Iron and Steel Association
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

Standards related to: GB/T 37390-2019

GB/T 37390-2019
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.010
H 04
Guides for energy efficiency assessment
of hot rolling process
ISSUED ON: MARCH 25, 2019
IMPLEMENTED ON: FEBRUARY 01, 2020
Issued by: State Administration for Market Regulation;
Standardization Administration of the PRC.
Table of Contents
Foreword ... 3 
1 Scope ... 4 
2 Normative references ... 4 
3 Terms and definitions ... 4 
4 Basic principles ... 5 
5 Assessment procedures ... 5 
6 Boundary and energy consumption statistical range ... 6 
7 Baseline energy consumption ... 6 
8 Actual energy consumption ... 10 
9 Energy efficiency index ... 13 
10 Energy efficiency analysis ... 13 
11 Energy efficiency optimization measures ... 14 
Appendix A (Informative) Boundary division of hot rolling process ... 16 
Appendix B (Informative) Recommended values of coefficients for conversion
of various energies and energy-consumed media into standard coal ... 17 
Bibliography ... 19 
Guides for energy efficiency assessment
of hot rolling process
1 Scope
This Standard specifies the terms and definitions, basic principles, assessment
procedures, boundary and energy consumption statistical range, baseline
energy consumption, actual energy consumption, energy efficiency index,
energy efficiency analysis, and energy efficiency optimization measures for the
energy efficiency assessment of hot rolling process.
This Standard applies to energy efficiency assessment and energy saving
potential analysis of hot rolling process in iron and steel enterprises.
2 Normative references
The following documents are indispensable for the application of this document.
For the dated references, only the editions with the dates indicated are
applicable to this document. For the undated references, the latest edition
(including all the amendments) are applicable to this document.
GB 17167 General principle for equipping and managing of the measuring
instrument of energy in organization of energy using
GB/T 21368 Specification for equipping and managing of measuring
instrument of energy in the iron and steel industry
GB/T 23331 Energy management systems - Requirements
GB/T 28924 Guides for calculating energy efficiency index of an iron and
steel enterprise
YB/T 4662 Steel slag - Determination of potassium oxide and sodium oxide
content
3 Terms and definitions
The terms and definitions defined in GB/T 23331, GB/T 28924, and YB/T 4662
apply to this document.
6 Boundary and energy consumption statistical range
6.1 Process boundary division
The boundary of hot rolling process starts from the input of raw materials
(casting blank), energy, and energy-consumed medium, and ends with the
output of final product (rolled material) and steam for external supply.
See Appendix A for the boundary division of hot rolling process.
6.2 Energy consumption statistical range
The energy consumption statistical range of hot rolling process is as follows:
a) Hot rolling production process, including raw material preparation, heating,
rolling, cooling, and finishing, etc.;
b) Contain auxiliary production systems such as machine repair, inspection,
testing, measuring, transportation, production management and
dispatching systems, heating or cooling, lighting, warehousing;
c) Contain the amount of loss of various energies in hot rolling process
interface.
The above-mentioned energy consumption statistical range shall deduct the
steam recovered and externally-supplied; and does not include the energy
consumed by facilities for life purposes (such as canteen, lounge, etc.) which
are not related to production.
7 Baseline energy consumption
7.1 Baseline conditions
7.1.1 Baseline conditions are a number of measurable factors which have a
greater impact on the baseline energy consumption; and can be classified into
objective factors and subjective factors.
7.1.2 The objective factors refer to factors which are affected by the inherent
conditions outside the process boundary and are not controllable within the
process. They mainly refer to raw material conditions, product conditions,
geographical environment, climate temperature, etc.
7.1.3 The subjective factors are factors related to the enterprise’s own
management level, technical equipment level, operation level, etc. Through the
ways such as technical equipment optimization and management level
Field data acquisition includes but is not limited to the following contents. The
process parameters shall take the data under stable production conditions. The
amount of change shall take the average of statistical reporting period:
a) Yield information, including production scale, quantity of qualified products
during the statistical reporting period, etc.;
b) Raw material conditions, including raw material cross-section
specifications, steel grade, composition, etc.;
c) Product conditions, including product type, specifications, dimensions, etc.;
d) Consumption situation of energy and energy-consumed medium, such as
consumption of circulating water, electricity, compressed air, nitrogen,
natural gas, coal gas, etc.;
e) Energy recovery situation, such as steam recovery amount, pressure,
temperature, etc.;
f) Parameters of main energy-consumed units and important energy-
consumed equipment, such as the main parameters of heating furnace,
rolling mill, water treatment, and other systems;
g) Ambient temperature.
8.2 Principles of value selection for the coefficient for conversion of
energy and energy-consumed medium into standard coal
8.2.1 The fuel energy actually consumed by the energy use organization shall,
based on its low calorific value, be converted into the standard coal quantity.
For those non-actually measured, refer to Table B.1 in Appendix B.
8.2.2 Steam shall, based on its enthalpy value, be converted into standard coal
quantity. Refer to Table B.2.
8.2.3 For the conversion of energy-consumed medium into standard coal, refer
to Table B.3.
8.2.4 The conversion relationship between standard coal and heat is 1
kgce=29307.6 kJ.
8.2.5 The coefficient for conversion of electric power into standard coal takes
the equivalent value, i.e., 1 kW • h=0.1229 kgce.
8.3 Actual energy consumption
The actual energy consumption shall be calculated according to formula (3):
regulations, policies, and mandatory standards;
b) Whether backward processes and equipment which are prohibited or
eliminated by explicit order are used;
c) Use situation of new energy saving processes, new technologies, and new
products recommended by the state and industry.
10.2 Energy measuring instrument equipping and monitoring analysis
Energy measuring instrument equipping and monitoring analysis shall include
but is not limited to the following:
a) According to the requirements of GB 17167 and GB/T 21368, analyze the
scientific and rationality of the equipping plan for energy measuring
instrument in the hot rolling process;
b) The energy use state of hot rolling process can be monitored by referring
to GB/T 15316.
10.3 Energy efficiency level analysis
The energy efficiency level analysis shall include but is not limited to the
following:
a) Energy efficiency analysis of hot rolling process;
b) Energy efficiency analysis of important equipment. GB 18613, GB 30254,
GB 19761, GB 19762 can be referred to;
c) Energy unit consumption analysis;
d) Energy management analysis. GB/T 30258 can be referred to;
e) Rationality analysis of electricity usage. GB/T 3485 can be referred to;
f) Rationality analysis of heat usage. GB/T 3486 can be referred to;
g) Energy saving potential analysis and energy system optimization. GB/T
30715 can be referred to.
11 Energy efficiency optimization measures
The hot rolling process can use, but not limited to, the following energy
efficiency optimization measures:
a) Improve energy management and process operation levels;
...