MSK12-10-ES2-1GA 应用于控制器专用模块 BAUTZ
从2000年到未来几十年的市场是一个主要的工业市场。
节能的一个好处是它几乎总是如此
自食其力。但有时需要一些教学和长远的眼光
需要将信息传递给控制钱包的人
串。
一句警告的话。节能在暖通空调设计中很重要,但不是暖通空调系统的目的或功能。暖通空调
系统旨在提供舒适或受控环境。
如果我们将能量保存到忽略系统
功能,那幺我们没有履行我们的职责。拥有没有荣耀
一座节能的建筑让租户远离,但
不舒服的暖通空调系统。也没有对能量的感激
电子工厂生产产量下降的经理
暖通空调工程基础:1部分
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暖通空调工程基础:1部分13
尽管能源成本较低,但缺乏适当的空气质量浪费
“不,不要”是能源格言使用你需要的,但需要什么
您使用“”是一个推论。有关此主题的更多信息,请参阅参考文献8。
1.11摘要
必须掌握工程基础的一手知识
暖通空调设计师。所有的问题都有一种能力帮助解决
清晰思考,从问题定义到识别
备选方案、备选方案评估、优选行动的选择和实施。了解政治约束(准则
和法规)以及技术和道德因素是设计师工具箱的重要组成部分。具备流体力学、热力学、传热等基础工程物理知识,
湿度测量和声音控制对于暖通空调来说是必要的
设计师系统设计中的节能已成为一种道德
迫切的了解这些基本原理将使
本书中处理的其他问题更容易理解。
工具书类
1.戴尔·伊索洛、阿尔方斯、建筑行业价值工程、建筑
出版公司,纽约,1973年。
2.美国采暖、制冷和空调工程师协会ASHRAE手册,1999暖通空调应用,54章,“规范和标准”,亚特兰大,
GA。
3.ASHRAE手册,2001基础,2章,“流体流动”
4.同上,1章,“热力学和制冷循环”
5.同上,3章,“传热”
6.同上,6章,“湿度测量”
7.同上,7章,“声音和振动”
8.ASHRAE手册,1999年暖通空调应用,34章,“能源管理”
暖通空调工程基础:1部分
下载自数字工程图书馆@McGraw-Hill(www.digitalengineeringlibrary.com)
版权所有©2004麦格劳-希尔公司。版权所有。
任何使用均受网站上给出的使用条款的约束。
暖通空调工程基础:1部分
下载自数字工程图书馆@McGraw-Hill(www.digitalengineeringlibrary.com)
版权所有©2004麦格劳-希尔公司。版权所有。
任何使用均受网站上给出的使用条款的约束。
15
章
2.
暖通空调工程基础:
二部分
2.1导言
供暖、通风和空调(HVAC)系统设计用于满足特定建筑物或建筑物部分以及特定区域的舒适性或过程的环境要求
地理位置。除了基本暖通空调系统设计和室外气候之外,设计师还必须了解更多。他们还必须了解过程或舒适性要求。
此外,设计师必须了解建筑是如何(或将如何
以及该结构是否适合规定的空间用途。例如,仓库不能用作
无需大量修改和改进的洁净室;
试图根据洁净室规范对其进行空调,而无需进行必要的归档
MSK12-10-ES2-1GA 应用于控制器专用模块 BAUTZ
MSK12-10-ES2-1GA 应用于控制器专用模块 BAUTZ
market for the year 2000 on into the next decades is a major industry market.
One good thing about energy conservation is that it nearly always
pays for itself. But sometimes a bit of teaching and long-term vision
are needed to get the message to the person controlling the purse
strings.
A word of caution. Energy conservation is important in HVAC design, but it is not the purpose or function of the HVAC system. HVAC
systems are intended to provide comfort, or a controlled environment.
If we conserve energy to the point that we lose sight of the system’s
function, then we have failed in our duty. There is no glory in owning
a building that drives tenants away with its energy-conserving but
uncomfortable HVAC systems. Nor is there gratitude to an energy
manager in an electronics plant where the production yield drops for
HVAC Engineering Fundamentals: Part 1
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HVAC Engineering Fundamentals: Part 1 13
lack of proper air quality even though energy costs are low. ‘‘Waste
not, want not’’ is the energy motto. ‘‘Use what you need, but need what
you use’’ is a corollary. See Ref. 8 for more on this topic.
1.11 Summary
A first-hand knowledge of engineering fundamentals is a must for
HVAC designers. All problems are helped toward solution by an ability
to think clearly, to move from problem definition to identification of
alternatives, to evaluation of alternatives, to selection and implementation of preferred action. Knowledge of political constraints (codes
and regulations) as well as technical and ethical factors is an important part of the designer’s tool kit. Knowledge of fundamental engineering physics in fluid mechanics, thermodynamics, heat transfer,
psychrometrics, and sound control is absolutely essential to the HVAC
designer. Energy conservation in system design has become a moral
imperative. An understanding of these fundamentals will make all
other issues treated in this book easier to understand.
References
1. Dell’Isolo, Alphonse, Value Engineering in the Construction Industry, Construction
Publishing Company, Inc., New York, 1973.
2. American Society of Heating, Refrigeration, and Air-Conditioning Engineers ASHRAE Handbook, 1999 HVAC Applications, Chap. 54, ‘‘Codes and Standards,’’ Atlanta,
GA.
3. ASHRAE Handbook, 2001 Fundamentals, Chap. 2, ‘‘Fluid Flow.’’
4. Ibid., Chap. 1, ‘‘Thermodynamics and Refrigeration Cycles.’’
5. Ibid., Chap. 3, ‘‘Heat Transfer.’’
6. Ibid., Chap. 6, ‘‘Psychrometrics.’’
7. Ibid., Chap. 7, ‘‘Sound and Vibration.’’
8. ASHRAE Handbook, 1999 HVAC Applications, Chap. 34, ‘‘Energy Management.’’
HVAC Engineering Fundamentals: Part 1
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HVAC Engineering Fundamentals: Part 1
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15
Chapter
2
HVAC Engineering Fundamentals:
Part 2
2.1 Introduction
A heating, ventilating, and air conditioning (HVAC) system is designed to satisfy the environmental requirements of comfort or a process, in a specific building or portion of a building and in a particular
geographic locale. Designers must understand a great deal beyond basic HVAC system design and the outdoor climate. They must also understand the process or the comfort requirements.
In addition, designers must understand how the building is (or will
be) constructed and whether that construction is suitable for the stipulated use of the space. For example, a warehouse cannot be used as
a clean room without a great many modifications and improvements;
to attempt to air-condition it to clean-room specifications without making the necessary archit
MSK12-10-ES2-1GA 应用于控制器专用模块 BAUTZ
