冶金流程工程学

冶金流程工程学

图书基本信息
出版时间:2011-1
出版社:冶金工业
作者:殷瑞钰
页数:328
书名:冶金流程工程学
封面图片
冶金流程工程学

内容概要
Metallurgical Process Engineering discusses large-scale integrated theory on the level of manufacturing production processes, putting forward concepts for exploring non-equilibrium and irreversible complex system. It emphasizes the dynamic and orderly operation of the steel plant manufacturing process, the major elements of which are the flow, process network and program. The book aims at establishing a quasi-continuous and continuous process system for improving several techno-economic indices, minimizing dissipation and enhancing the market competitiveness and sustainability of steel plants. The book is intended for engineers, researchers and managers in the fields of metallurgical engineering, industrial design, and process engineering. Prof. Ruiyu Yin is honorary president of the Central Iron and Steel Research Institute, China, and a member of the Chinese Academy of Engineering.
作者简介
殷瑞钰(Yin Ruiyu),1935年7月生于江苏苏州。中国著名钢铁冶金专家。1957年毕业于北京钢铁学院(现北京科技大学),1994年当选为巾同工程院首批院士。历任唐山钢铁公司总工程师、副经理,河北省冶金厅厅长,冶金工业部总工程师、副部长,钢铁研究总院院长,中国工程院化工、冶金与材料学部主任、工程管理学部主任等职,中国金属学会第五、六、七届副理事长。曾任国家攀登计划“熔融还原技术基础研究”首席科学家。现任中同工程院主席团成员,钢铁研究总院名誉院长,中国金属学会名誉理事长,北京科技大学、东北大学兼职教授、博导。长期住冶金企业、科研单位和同家工业部门从事科技、生产、经济管理和行业发展战略研究工作,特别是对20世纪90年代中国钢铁工业技术进步战略的判断、选择和有序推进做了大量工程技术和理论研究工作。组织推进了中国连续铸钢,高炉喷吹煤粉,棒、线材连轧等多项关键一共性技术的全国性突破工作;在理论上提出并阐述了钢铁制造流程的多因子物质流控制、钢铁制造流程解析与集成、钢铁厂结构优化和发展模式、钢铁工业与绿色制造等一系列观点;促进了一大批钢厂工艺流程结构的优化,推动了中国钢铁工业持续快速发展。曾获冶金工业部(局)科技进步奖一等奖二项,国家科技进步奖二等奖一项。由于住工程技术和工程科学方面的成就和贡献,荣获1998~1999年度中国工程科技奖。2002年当选为日本钢铁学会名誉会员。荣获2008年度何梁何利科技进步奖。
书籍目录
Chapter
1
Steel——the
"Material
of
Choice" 1.1
The
Position
of
Steel
among
Diverse
Materials 1.2
Steel——An
Important
Basic
Material
in
the
Process
of
Industrialization 1.3
The
Rise
of
the
Chinese
Steel
Industry  1.3.1
The
traction
of
market
demand  1.3.2
Correct
judgments
and
choices
and
the
orderly
implementation
of
technological
progress
strategies  1.3.3
The
promotional
effect
of
using
international
mineral
resources
and
scrap  1.3.4
Domestication
of
advanced
technology
and
equipment  1.3.5
The
coordinating
effect
of
effective
investments
and
a
technological
progress
strategy 1.4
Technological
Progress
of
the
Chinese
Steel
Industry  1.4.1
Continuous
casting
technology  1.4.2
PCI
technology  1.4.3
Technology
for
the
elongation
of
BF
campaigns  1.4.4
Technology
for
continuous
rolling
of
long
products  1.4.5
Comprehensive
energy
savings
by
means
of
production
process
adjustments  1.4.6
Slag
splashing
technology
for
BOFs
,  1.4.7
Summary 1.5
Comparative
Superiority,
Restrictions
and
Prospects
of
the
Chinese
Steel
Industry  1.5.1
Advantages  1.5.2
Restrictions  1.5.3
Prospects
of
the
Chinese
steel
industry
" ReferencesChapter
2
Process
Manufacturing
Industry
and
Process
Engineering" 2.1
Manufacturing
Industry
and
Its
Technological
Process 2.2
Process
Manufacturing
Industry
and
Equipment
Manufacturing
Industry 2.3
Manufacturing
Process
and
Process
Engineering  2.3.1
Process
and
manufacturing
process  2.3.2
Process
engineering  2.3.3
Process
engineering
and
manufacturing
process  2.3.4
Connotation
and
targets
of
process
engineering 2.4
Features
of
Manufacturing
Process  2.4.1
Complexity
of
manufacturing
process  2.4.2
Integrity
of
manufacturing
process 2.5
Classification
of
Manufacturing
Processes  2.5.1
Classification
according
to
functions  2.5.2
Classification
according
to
structures  2.5.3
Classification
according
to
production
running
modes  2.5.4
Classification
according
to
technological
features ReferencesChapter
3
Engineering
Science
in
Steel
Manufacturing
Process 3.1
Transition
of
Theory
and
Engineering
Practice
for
Metallurgical
Process  3.1.1
Formation
and
progress
of
the
fundamental
science
on
metallurgy  3.1.2
Technical
science
issues
in
unit
device
and
procedure
level
of
metallurgical
process  3.1.3
Formation
and
progress
of
metallurgical
process
engineering
.. 3.2
Connotation
and
Physical
Essence
of
Metallurgical
Process
Engineering  3.2.1
Multi-level
analysis
of
science  3.2.2
Physical
essence
of
manufacturing
process
of
metallurgy  3.2.3
Targets
of
the
metallurgical
process
engineering  3.2.4
Research
scope
and
methodology
of
metallurgical
process
engineering  3.2.5
The
influence
of
metallorgical
process
engineering
on
steel
enterprise 3.3
Ken
and
Topics
of
Fundamental
Research
of
MetallurgicalEngineering
Science References

章节摘录
版权页:插图:In
sum,
steel
is
still
irreplaceable
for
the
world's
primary
basic
industries
and
infrastructure
and
even
daily
consumption
due
to
its
excellent
overall
properties.
The
competitiveness
of
steel
in
terms
of
price
is
also
quite
obvious.
The
cost
per
unit
strength
of
steel
compared
with
those
of
various
structural
materials
is
only
1/4
to
1/5
that
of
aluminium,
ceramics,
and
carbon
materials.
Also,
iron
ore
deposits
for
the
manufacture
of
steel
are
available
in
large
quantities
and
easy
to
exploit,
and
steel
products
are
easy
to
process
and
recycle.
Thus
steel
will
remain
as
the
principal
basic
material
worldwide
in
the
foreseeable
future,
and
will
continue
to
play
an
active
role
in
the
world's
social
civilization
and
economic
development,
especially
in
China
where
the
national
economy
is
growing
at
a
rapid
pace.
In
the
21st
century,
the
international
steel
industry
has
been
paying
close
attention
to
the
position
and
role
of
steel
materials
and
has
expressed
many
views
of
an
evaluating
nature.
It
appears
that
the
opinions
of
all
countries
are
unanimous
in
these
aspects.
A
typical
opinion
is
that
of
the
AISI
(Kavanagh,
Carson,
Dasgupta,
et
al,
1998),
which
maintains
that
steel
will
continue
to
be
the
"material
of
choice".
In
China,
where
the
economy
is
in
a
period
of
rapid
growth,
steel
consumption
is
swiftly
increasing
in
the
wake
of
the
country's
rapidly
developing
nationaeconomy
and
social
civilization,
the
apparent
consumption
of
steel
reaching
411.6
million
tons
in
2007.
Relevant
studies
hold
that
petroleum,
steel,
aluminum,
and
copper
are
strategic
materials
for
this
country
and
should
be
given
a
high
degree
of
attention.
编辑推荐
《冶金流程工程学(全英文·国际版)(第2版)》是由冶金工业出版社出版的。


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