filmov
tv
Aspen Plus: Basic Design of Organic Rankine Cycle using T-s Diagram
Показать описание
ORC (organic rankine cycle) working fluids are usually classified as wet, isentropic, or dry. Dry fluids are high molecular mass organic fluids exhibiting positive slope on the T-s diagram. Wet fluids are low molecular mass organic fluids exhibiting negative slopes on the T-s diagram. Isentropic fluids are generally of medium molecular mass, exhibiting infinite or nearly vertical on the T-s diagram.
Wet fluids normally require superheating to avoid formation of liquid droplet in the turbine. Therefore, isentropic and dry fluids have been widely proposed for ORC. Nevertheless, if the saturated vapor curve of the dry fluid sharply deflects inwards, the vapor will exit from the turbine with significant degree of superheat thereby unnecessarily adding to the condenser cooling load. The exiting superheated vapor can however be utilized for regeneration between the feed pump and the heater/evaporator to improve the efficiency of the system.
In this video we design a R245fa ORC system basically.
For a small donation you can download the Aspen Plus, Excel and PowerPoint files from the following link:
All Aspen simulations in this channel can be downloaded for a donation. After completing the donation, you will be redirected to the download page:
Wet fluids normally require superheating to avoid formation of liquid droplet in the turbine. Therefore, isentropic and dry fluids have been widely proposed for ORC. Nevertheless, if the saturated vapor curve of the dry fluid sharply deflects inwards, the vapor will exit from the turbine with significant degree of superheat thereby unnecessarily adding to the condenser cooling load. The exiting superheated vapor can however be utilized for regeneration between the feed pump and the heater/evaporator to improve the efficiency of the system.
In this video we design a R245fa ORC system basically.
For a small donation you can download the Aspen Plus, Excel and PowerPoint files from the following link:
All Aspen simulations in this channel can be downloaded for a donation. After completing the donation, you will be redirected to the download page:
0:44:45
Aspen Plus: Basic Design of Organic Rankine Cycle using T-s Diagram
0:03:56
Aspen HYSYS vs. Aspen Plus - A Brief Comparison!
0:09:43
Lecture 01: Why Simulate/Model Processes? (Aspen Plus - Basic Modeling)
0:01:46
Aspen Plus Basic Course Preview
0:05:41
What is the difference between Aspen HYSYS & Aspen Plus
0:04:22
Aspen Plus: Process Modeling Class Preview
0:06:04
Aspen Plus Instruction | know all the details of Aspen Plus in 6 minutes | #AspenplusAHC #education
0:02:46
Lecture 24: Separators (Aspen Plus - Basic Modeling)
1:00:00
HSN | BEARPAW Footwear - All On Free Shipping 11.09.2024 - 12 PM
0:00:51
Aspen Plus® simulation software a basic course for beginners
0:04:57
Lecture 03: Course Objectives (Aspen Plus - Basic Modeling)
0:24:38
Ethylbenzene process simulation on Aspen Plus
0:29:17
Introduction to Aspen Plus
0:02:32
Aspen Plus: Pumps
0:13:57
Aspen Plus in English | Part 2 | 04 | Design specs
0:02:06
Aspen Plus: Simple example (Compressor)
0:04:14
Lecture 20: Introduction to Unit Operations (Aspen Plus - Basic Modeling)
0:05:00
How to integrate Aspen Plus and Microsoft Excel? Learn Chemical Engineering Design with Dr Hanak
0:14:25
Aspen Plus V14.0 || Getting Started With The Aspen Plus | Lec 1.1
0:01:27
Aspen Plus - Basic Course (Trailer)
0:13:13
Aspen Plus | Simulation and Rating of heat exchanger (Rigorous Design)
0:00:55
Aspen Plus® Process Simulation Model of the Biomass Ash-Based Treatment of Anaerobic ... | RTCL.TV
0:02:50
Aspen Plus® simulation software - a basic course for beginners
0:00:10
Free webinar on Modeling Urea Production process in Aspen Plus
Комментарии