Auto LIPS programlama diliyle ısı kaybı hesabı
Başlık çevirisi mevcut değil.
- Tez No: 46566
- Danışmanlar: DOÇ.DR. İ. CEM PARMAKSIZOĞLU
- Tez Türü: Yüksek Lisans
- Konular: Enerji, Energy
- Anahtar Kelimeler: Belirtilmemiş.
- Yıl: 1995
- Dil: Türkçe
- Üniversite: İstanbul Teknik Üniversitesi
- Enstitü: Fen Bilimleri Enstitüsü
- Ana Bilim Dalı: Belirtilmemiş.
- Bilim Dalı: Belirtilmemiş.
- Sayfa Sayısı: 27
Özet
27-Ability to simultaneously compute peak space loads, peak zone loads, and coil loads. 28-Ability to specify screen, printer or both for output. 29-Compiled program for super fast operation. 30-Ability to enter inf iltraration rate for cooling and heat ing. 31-A11 solar and psychrometric calculations are corrected for altitude. In chapter two AutoLISP programming language is introduced. AutoLISP is an implementation of the LISP programming language embedded within the AutoCAD package. AutoLISP lets users and AutoCAD developers write macro programs and function is a powerful high- level language that is well suited to graphics applications. LISP is easy to learn and use, and is very flexible. You don't have to know how to program in AutoLISP to make effective use of AutoCAD. If you have no experience in computer programming, you can learn how to install AutoLISP by reading and then use the supplied programs described. This will let you use numerous discipline-specific AutoCAD menus and applications that use AutoLISP. Recommended that you obtain various text on LISP in order to learn the programming language. We chose LISP as the first AutoCAD application interface language for several reasons: 1-LISP is among the easiest of all programming languages to learn and to master. 2-It is the chosen language for research and development of artificial intelligence and expert systems. 3-Because of LISP' s exceedingly simple syntax, a LISP interpreter is fairly easy to implement and is quite small. 4-A LISP interpreter is ideally suited to the un structured interaction that characterized the design process. 5-LISP excels at working with collections of heterogeneous objects in various sized groups, which is precisely the type of information a CAD system like AutoCAD manipulates. XX
Özet (Çeviri)
SUMMARY COMPÜTING (CALCULATING) HEAT REQUIREMENTS FOR BUILDINGS USING AutoLZSP PROGRAMMING LANGÜAGE in this study, the main subject is explained four basic chapters. in the first chapter, other computer programs ar-e examined. Our objective in the first chapter is to analyze how these programs solve their problems and which programming language is used. Here the second important topic is the operating media of these programs. We have to study seperately in the drawing editör and the text editör within the programs. So, some of these programs are not suitable for practical calculating. For example, in the program of calculating pipe diameter in naturel gas grid we have to measure the pipe length from the projects and then convert its units into the real ones. Later this pipe length is printed on the table on the monitör and af ter that we' re to select the pipe diameter from the pipe diameter selection table. The selected pipe diameters are printed on the calculating table. The flow rates, velocities, and coefficients of friction selected from the selection table are printed on the calculating table on the computer, respectively. Öne of the advantages of this program that' s programmed in QPRO is that the user be able to see the results of the pressure drops immediately. QPRO is very useful for preparing tables and for making different analyses. Later, we count the number of elbows, valves, ete. on the each pipe line; these numbers increase the pressure drops throughout the pipe. The velocity of natural gas that flow in the pipes must.be below 6 m/s and the total pressure drop of natural gas grid ranging from the service box to the stove must be lower than 1.8 mbar so that the device can operate. The E20-II Commercial Load Estimating program can be shows as second example. E20-II program has been developed for easy operating, quick calculation, and accurate load estimates. With the use of this prrogram the user is able to calculate cooling- and heating reguirements for small buildings as well as highly coplex buildings. The E20-II program has been written to obtain accurate load estimates with a minimum amount ör user inputs. Ali the load calculations and vi27-Ability to simultaneously compute peak space loads, peak zone loads, and coil loads. 28-Ability to specify screen, printer or both for output. 29-Compiled program for super fast operation. 30-Ability to enter inf iltraration rate for cooling and heat ing. 31-A11 solar and psychrometric calculations are corrected for altitude. In chapter two AutoLISP programming language is introduced. AutoLISP is an implementation of the LISP programming language embedded within the AutoCAD package. AutoLISP lets users and AutoCAD developers write macro programs and function is a powerful high- level language that is well suited to graphics applications. LISP is easy to learn and use, and is very flexible. You don't have to know how to program in AutoLISP to make effective use of AutoCAD. If you have no experience in computer programming, you can learn how to install AutoLISP by reading and then use the supplied programs described. This will let you use numerous discipline-specific AutoCAD menus and applications that use AutoLISP. Recommended that you obtain various text on LISP in order to learn the programming language. We chose LISP as the first AutoCAD application interface language for several reasons: 1-LISP is among the easiest of all programming languages to learn and to master. 2-It is the chosen language for research and development of artificial intelligence and expert systems. 3-Because of LISP' s exceedingly simple syntax, a LISP interpreter is fairly easy to implement and is quite small. 4-A LISP interpreter is ideally suited to the un structured interaction that characterized the design process. 5-LISP excels at working with collections of heterogeneous objects in various sized groups, which is precisely the type of information a CAD system like AutoCAD manipulates. XXSUMMARY COMPÜTING (CALCULATING) HEAT REQUIREMENTS FOR BUILDINGS USING AutoLZSP PROGRAMMING LANGÜAGE in this study, the main subject is explained four basic chapters. in the first chapter, other computer programs ar-e examined. Our objective in the first chapter is to analyze how these programs solve their problems and which programming language is used. Here the second important topic is the operating media of these programs. We have to study seperately in the drawing editör and the text editör within the programs. So, some of these programs are not suitable for practical calculating. For example, in the program of calculating pipe diameter in naturel gas grid we have to measure the pipe length from the projects and then convert its units into the real ones. Later this pipe length is printed on the table on the monitör and af ter that we' re to select the pipe diameter from the pipe diameter selection table. The selected pipe diameters are printed on the calculating table. The flow rates, velocities, and coefficients of friction selected from the selection table are printed on the calculating table on the computer, respectively. Öne of the advantages of this program that' s programmed in QPRO is that the user be able to see the results of the pressure drops immediately. QPRO is very useful for preparing tables and for making different analyses. Later, we count the number of elbows, valves, ete. on the each pipe line; these numbers increase the pressure drops throughout the pipe. The velocity of natural gas that flow in the pipes must.be below 6 m/s and the total pressure drop of natural gas grid ranging from the service box to the stove must be lower than 1.8 mbar so that the device can operate. The E20-II Commercial Load Estimating program can be shows as second example. E20-II program has been developed for easy operating, quick calculation, and accurate load estimates. With the use of this prrogram the user is able to calculate cooling- and heating reguirements for small buildings as well as highly coplex buildings. The E20-II program has been written to obtain accurate load estimates with a minimum amount ör user inputs. Ali the load calculations and vi27-Ability to simultaneously compute peak space loads, peak zone loads, and coil loads. 28-Ability to specify screen, printer or both for output. 29-Compiled program for super fast operation. 30-Ability to enter inf iltraration rate for cooling and heat ing. 31-A11 solar and psychrometric calculations are corrected for altitude. In chapter two AutoLISP programming language is introduced. AutoLISP is an implementation of the LISP programming language embedded within the AutoCAD package. AutoLISP lets users and AutoCAD developers write macro programs and function is a powerful high- level language that is well suited to graphics applications. LISP is easy to learn and use, and is very flexible. You don't have to know how to program in AutoLISP to make effective use of AutoCAD. If you have no experience in computer programming, you can learn how to install AutoLISP by reading and then use the supplied programs described. This will let you use numerous discipline-specific AutoCAD menus and applications that use AutoLISP. Recommended that you obtain various text on LISP in order to learn the programming language. We chose LISP as the first AutoCAD application interface language for several reasons: 1-LISP is among the easiest of all programming languages to learn and to master. 2-It is the chosen language for research and development of artificial intelligence and expert systems. 3-Because of LISP' s exceedingly simple syntax, a LISP interpreter is fairly easy to implement and is quite small. 4-A LISP interpreter is ideally suited to the un structured interaction that characterized the design process. 5-LISP excels at working with collections of heterogeneous objects in various sized groups, which is precisely the type of information a CAD system like AutoCAD manipulates. XXSUMMARY COMPÜTING (CALCULATING) HEAT REQUIREMENTS FOR BUILDINGS USING AutoLZSP PROGRAMMING LANGÜAGE in this study, the main subject is explained four basic chapters. in the first chapter, other computer programs ar-e examined. Our objective in the first chapter is to analyze how these programs solve their problems and which programming language is used. Here the second important topic is the operating media of these programs. We have to study seperately in the drawing editör and the text editör within the programs. So, some of these programs are not suitable for practical calculating. For example, in the program of calculating pipe diameter in naturel gas grid we have to measure the pipe length from the projects and then convert its units into the real ones. Later this pipe length is printed on the table on the monitör and af ter that we' re to select the pipe diameter from the pipe diameter selection table. The selected pipe diameters are printed on the calculating table. The flow rates, velocities, and coefficients of friction selected from the selection table are printed on the calculating table on the computer, respectively. Öne of the advantages of this program that' s programmed in QPRO is that the user be able to see the results of the pressure drops immediately. QPRO is very useful for preparing tables and for making different analyses. Later, we count the number of elbows, valves, ete. on the each pipe line; these numbers increase the pressure drops throughout the pipe. The velocity of natural gas that flow in the pipes must.be below 6 m/s and the total pressure drop of natural gas grid ranging from the service box to the stove must be lower than 1.8 mbar so that the device can operate. The E20-II Commercial Load Estimating program can be shows as second example. E20-II program has been developed for easy operating, quick calculation, and accurate load estimates. With the use of this prrogram the user is able to calculate cooling- and heating reguirements for small buildings as well as highly coplex buildings. The E20-II program has been written to obtain accurate load estimates with a minimum amount ör user inputs. Ali the load calculations and vi
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