Mastering Project Settings HVAC in Revit MEP: A Comprehensive Guideline
this in-depth tutorial, we'll explore the importance of Project Settings HVAC in Revit MEP and walk you through the process of configuring these settings for accurate calculations and efficient design.
What you'll learn:
- The fundamentals of Project Settings HVAC in Revit MEP
- How to configure duct sizing and calculation methods
- How to set up airflow and pressure drop calculations
- How to optimize HVAC system design for energy efficiency
- Best practices for managing Project Settings HVAC in Revit MEP
Why is this important?
- Ensure accurate calculations and analysis for HVAC systems
- Optimize system design for energy efficiency and cost savings
- Improve collaboration and consistency among team members
- Comply with industry standards and regulations (ASHRAE, SMACNA)
Revit MEP, Project Settings HVAC, HVAC Design, Duct Sizing, Airflow Calculations, Pressure Drop, Energy Efficiency, Building Design, MEP Design, Revit Tutorial, CAD, BIM, Sustainability, Green Building
#RevitMEP #HVACDesign #ProjectSettings #DuctSizing #AirflowCalculations #PressureDrop #EnergyEfficiency #BuildingDesign #MEPDesign #RevitTutorial #CAD #BIM #Sustainability #GreenBuilding #ASHRAE #SMACNA
Categories: Education, Engineering, Architecture, Building Design, MEP Design, Revit MEP, HVAC, Energy Efficiency
this in-depth tutorial, we'll explore the importance of Project Settings HVAC in Revit MEP and walk you through the process of configuring these settings for accurate calculations and efficient design.
What you'll learn:
- The fundamentals of Project Settings HVAC in Revit MEP
- How to configure duct sizing and calculation methods
- How to set up airflow and pressure drop calculations
- How to optimize HVAC system design for energy efficiency
- Best practices for managing Project Settings HVAC in Revit MEP
Why is this important?
- Ensure accurate calculations and analysis for HVAC systems
- Optimize system design for energy efficiency and cost savings
- Improve collaboration and consistency among team members
- Comply with industry standards and regulations (ASHRAE, SMACNA)
Revit MEP, Project Settings HVAC, HVAC Design, Duct Sizing, Airflow Calculations, Pressure Drop, Energy Efficiency, Building Design, MEP Design, Revit Tutorial, CAD, BIM, Sustainability, Green Building
#RevitMEP #HVACDesign #ProjectSettings #DuctSizing #AirflowCalculations #PressureDrop #EnergyEfficiency #BuildingDesign #MEPDesign #RevitTutorial #CAD #BIM #Sustainability #GreenBuilding #ASHRAE #SMACNA
Categories: Education, Engineering, Architecture, Building Design, MEP Design, Revit MEP, HVAC, Energy Efficiency
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TechTranscript
00:00As-salamu alaykum wa rahmatullahi wa barakatuhu bismillahirrahmanirrahim
00:30As-salamu alaykum wa rahmatullahi wa barakatuhu bismillahirrahmanirrahim
01:00As-salamu alaykum wa rahmatullahi wa barakatuhu bismillahirrahmanirrahim
01:06So, we have to look at the supply-year setting, exhaust-year setting, return-year setting,
01:15sizing and angles and angles and angles.
01:23So, we have to cover the different things that we have to cover.
01:27When you have to start a project with Ravit or MEP or HV,
01:32So, you should have to keep thinking of the things that you need to keep in mind.
01:35So, first of all, we have to make a base and look at the things that we can see and then
01:40we can see.
01:42What are project settings HVC in Revit MVP?
01:45Project setting HVC in Revit MVP refers to the configuration of setting that control the
01:51behavior and calculation for heating, ventilation and air conditioning HVAC system in a project.
01:59So, this setting defines how Revit MVP calculate and display HVAC related data such as air flow,
02:07pressure drop and duct sizing.
02:09Okay, so, this is your introduction.
02:11That is why you have to do this.
02:13That is why you have to do this.
02:15So, you can see the settings that you need to do this.
02:17So, you can see the settings that you need to do this.
02:20So, this is your settings.
02:22So, this is your settings, your settings, your settings, your settings.
02:26So, this is your requirements or your design.
02:30Why do we need project setting HVAC?
02:33Accurate calculation.
02:34So, accurate calculation.
02:36HVAC setting ensures that Revit MVP perform accurate calculation for air flow, pressure drop
02:43and energy consumption which is critical for designing efficient HVAC system.
02:51Second is consistency.
02:54Project setting ensures consistency in HVAC design and collection throughout the project using error and inconsistencies.
03:04Also, that is consistency where you have to do the same thing.
03:07So, you can see the same thing that is your status and your expectations of your status.
03:11Then use compliance.
03:13HVAC settings help ensure compliance with industry standards.
03:15So, you have to have to do the same thing.
03:17You have to do the same thing.
03:18Industry standards are also bistrall the same thing that you need to make.
03:20You have to do the same thing.
03:21Which is your status of your standards.
03:22As long as your standards are being fixed and your standards are of the same.
03:24P BONING DEGRAMATING DAYS.
03:25follow-up.
03:274. Collaboration
03:29Standardized HVAC
03:31Facilitate Collaboration
03:33Among Team Members and Stakeholders
03:35Ensuring Everyone
03:37Is Working With The Same
03:39Inception and Criteria
03:41So, collaboration
03:43means that you can share data
03:45with different stakeholders
03:47so you can share data
03:49that you can share
03:51all the industry standards
03:53that you have set in the beginning
03:55and follow-up.
03:575. Efficient Design
03:59By defining HVAC setting
04:01you can optimize system design
04:03reduce energy consumption
04:05and minimize cost
04:07Now your design
04:09when you start any project
04:11you can try to do
04:13that your design is efficient
04:15so that your optimization
04:17system design
04:19or energy consumption
04:21is less
04:23and your cost
04:25is less
04:27what can you configure
04:29and project setting
04:30HVAC
04:31duct sizing
04:33calculation method
04:35pipe sizing
04:37control
04:39pressure drop
04:41HVAC system type
04:43installation
04:45and lining setting
04:47you can configure
04:49and energy analysis setting
04:51control
04:53By configuring these settings
04:55you can ensure that your
04:57Revit MVP project is designed
04:59and analyzed accurately
05:01efficiently and in compliance
05:03with industry standards
05:05so what is your project
05:07what is your
05:08industry standards
05:09and what is your
05:10approach
05:11Now we go to Revit
05:12and Revit
05:13we go to Revit
05:14and Revit
05:15we go to Revit
05:16which is
05:17settled
05:18which is
05:19control
05:20which is
05:21which is
05:22which is
05:23which is
05:24already
05:25in
05:27tutorial
05:28I
05:29have to
05:31control
05:32of
05:33the
05:35standards
05:36which is
05:37the
05:38system
05:39type
05:40basically
05:41system
05:42type
05:43HVAC
05:44or
05:45MEP
05:46or
05:47mechanical
05:49cover over here. If you have a mechanical system where you can be at any time you can
05:55see the system tab so you can see the system tab tab that you have here. Look at this
06:01electrical and piping and plumbing, mechanical, fabrication and innovation collaboration,
06:12is
06:18.
06:24.
06:29.
06:31.
06:34.
06:35.
06:37.
06:38.
06:41same dialogue pass here also
06:43so here you have 2
06:45different information
06:47and you can see
06:49which is better and which is better
06:51which is better
06:53first of all
06:55hidden lines
06:57hidden lines
06:59hidden lines
07:01hidden lines
07:03hidden lines
07:05hidden lines
07:07hidden lines
07:09hidden lines
07:11hidden lines
07:13hidden lines
07:15hidden lines
07:17hidden lines
07:19hidden lines
07:21hidden lines
07:23hidden lines
07:25hidden lines
07:27hidden lines
07:29hidden lines
07:31hidden lines
07:33hidden lines
07:35hidden lines
07:37Line style. You can see line style. Electrical power, detail, medium.
07:46So, line style is what you can do.
07:50Inside gap. Gap, you can see gap.
07:54You can see that gap.
07:56You can see that gap.
07:58You can see that gap.
08:00You can see that gap.
08:06Outside gap.
08:09Single line gap.
08:13Inside gap. Outside gap.
08:15Single line.
08:18Terminologies.
08:22Inside gap. Outside gap. Single line.
08:26I can see that gap.
08:27I can see that gap.
08:29I can see that gap.
08:31Inside gap setting in river.
08:33We specify the size of the gap.
08:35You can see that gap.
08:37For the line that appears within a crossing segment.
08:41Now if you see 2 lines across the gap.
08:42You can see that gap gap has is how that gap.
08:47You can see that gap gap.
08:54You can see that gap gap is in the same way.
08:57green, green hair, cyan, it's inside gap, which is how much it should be.
09:03It should be how much it should be.
09:05So here, if you look at cyan red and green,
09:10then inside gap, pipe, pipe, and ducted inside gap, which is how much it should be.
09:16Basically, the inside gap is telling you how much it should be.
09:22The inside gap is defined by the outside gap.
09:39On the outside of the main crossing duct or pipe, where the header line appears.
09:45The header line appears. Outside the main crossing duct or pipe,
09:51there is a gap.
09:53Inside I have defined the gap within the crossing elements,
09:58which we are crossing.
09:59Single line defines the gap for the single header line.
10:03If there is a single header line, then it is a gap.
10:06What is the purpose?
10:08Prevent line from overlapping or looking solid when they cross.
10:13Creating a clean layered look for MEP service in planned view.
10:18What is the consequence of that?
10:19The goal is to require to cross.
10:24This is how the inside gap is.
10:30Inside gap is what we can imagine.
10:33This gap in two points are different.
10:36Under the inside gap we can see how much gaps remain inside.
10:40outside gap is where you need to be.
10:43outside gap is where you need to be.
10:47single line, header line, which is where you can be.
10:51in this setting you need to be used.
10:55in this setting you need to be ducted settings.
11:00just use annotation scale for single line fit.
11:03annotation scaling is where you should be.
11:06if you have to be in line fit in your setting,
11:10then check it out.
11:12duct fitting annotation size.
11:14duct fitting annotation size.
11:17duct fitting annotation size.
11:19size is what you can tell.
11:21air density is what you need to be.
11:23you can totally depend on design.
11:26design is what you need to be.
11:28air dynamic viscosity and west cross viscosity
11:32depend on design.
11:35rectangular duct size.
11:38if you have 300 by 200,
11:40then you can be cross.
11:43so you can assign it here.
11:45you can use it here.
11:47you can use it here.
11:49rectangular duct size size.
11:51you can use it here.
11:53Vous know,
11:59no.
12:12round duct size suffix. If round duct is, then it will be suffix.
12:17It will also give you suffix. Sophix will be prefix.
12:21This is rectangular duct and this is round duct connector separator.
12:26When duct connector is separated, it will separate separate.
12:33So this annotation is given here.
12:37So this is not the same.
12:46It is not the same.
12:48So this is the same thing.
12:54So this is the same thing.
12:57over a duct side surface.
12:59Over a duct surface.
13:01What you can do here.
13:03You can see here.
13:04I have nothing to do here.
13:05I have nothing to do here.
13:06But if you have something to do here,
13:09then you can do it.
13:10And the other way you can do it.
13:14Duct rise.
13:15Duct annotation size.
13:16Duct annotation size.
13:17Duct annotation size.
13:18Then you can do it.
13:20Flat on top.
13:22Flat on top.
13:24You can do it.
13:25Terminology.
13:26Then you can do it.
13:28So, you can do it.
13:29I've also done it.
13:30From to above.
13:31From above.
13:32This way, setup from top.
13:34So, you can do it.
13:36Terminology.
13:37You can do it.
13:39So, this is how we can do it.
13:42So, you can just do it.
13:45We can do it.
13:47You can, you can do it.
13:49So, I'm going to go to it.
13:51So, it has to, like to do it.
13:53I've been doing it.
13:55and model. So here you can see visible home. Okay, the first point is Use Annotation Scale for Single Line Fitting.
14:06You can check this out here. If you see single line drops or risers, you can see it.
14:19So in this case, you can see that you have to use a scale.
14:26If you have a single line diagram, you can change the scale.
14:31If you change it, you can change it.
14:34If you change it, you can change it or not.
14:36We can see here.
14:38Using Use Annotation Scaling for Single Line Fitting in Revit,
14:42if pipe and duct fitting elbow TZ size with the view annotation scale in the single line diagram.
14:49View annotation scale in the single line diagram.
14:52Showing consistent plotted size by linking to the pipe duct fitting annotation size setting.
14:59Activate it for automatic scaling to your chosen size.
15:03On that scale is controlled, control the control range.
15:09When detailed levels are coarse low, or deactivated to maintain fixed size regardless of scale, which is useful for precise diagram.
15:20If you don't want to scale it up, then you can do it off.
15:25So, you can try to enable it.
15:30If you check it out, you need to enable it.
15:34Then, you can do the duct fitting annotation scale.
15:41The upper part, use annotation scale for single line fitting,
15:46it can be used with this.
15:48And how much size you have to keep,
15:50it's basically about the size.
15:53So, if you read the duct fitting annotation scale in BIM software,
15:57like the rubber control the printed side of single line duct symbols.
16:02Letting them adjust with the drawing scale or stay fixed.
16:05Typically, manage in mechanical settings under duct fitting annotation size.
16:09Or by toggling use annotation scaling for single line fitting to ensure the symbol look right.
16:15Like 3 mm.
16:16On paper, regardless of the view scale.
16:19This is the key for clean plane showing complex system of different detail level.
16:24Okay?
16:25So, it's the clean concept.
16:26What is the annotation scaling?
16:28Setting that control the size of the annotation element.
16:31Text symbols relative to the drawing scale.
16:34Assuring they always blot on a consistent side on it.
16:37Then you need to control the text.
16:39Right?
16:40You can see the text also running until you're on.
16:42This can be used by the text as well.
16:44You can see the text on or off, but then it's about annotation and scale in.
16:48To be honest, the text also is the same.
16:49On or off.
16:50You can see the test of annotation on it, right?
16:51Then you can see the text also using the type of annotation.
16:53So, there's only the text which you'll see.
16:54scaling bhi arhi hoti hai.
16:56Thick hai?
16:57Aap ki text vhari hoti hai.
16:58Tho is ko bhi aap control kare righate hai.
17:00Single line fitting.
17:01Symbol line arc user cost detailed cost for clarity.
17:05Thick hai 3D geometry app.
17:07Single line fitting bhi aap ki joh hai.
17:09Woh arhi hoti hai.
17:10Use annotation for single line fitting.
17:12On.
17:13Fitting on honne chahayi aap ki.
17:14And yaha pe dekhaay on honne chahayi hai.
17:16Fitting symbol automatically size based on the view current annotation scale.
17:21Fitting size hi joh otay automatically.
17:23Woh bhi scale kereta hai.
17:24If you change the drawing scale, the symbol size changes.
17:27Yarni graphically bhi aap control kare righ hoti hai.
17:29Aap non-graphically bhi control kare righ hoti hai.
17:33Graphical kai mطلب bhi ki aap ki joh fitting saa righi hai.
17:36Woh aap control kare righi hai.
17:37Joh physical yaap ko nazer righi hai.
17:39Plus joh annotation annotation mطلب bhi aapke tag yaa
17:42aapke text yaa aapke joh bhi
17:44woha pe oopper likha hoa hai.
17:46Thick hai?
17:47Woh joh lakhai hai nha.
17:48Woh aapki joh hai control ki jah righi hoti hai.
17:51Thick hai?
17:51Thick hai?
17:53Thick hai?
17:54Aapne dheekh lena ke eek to aapne on rakhna hai.
17:56Aapne on rakhna.
17:57Aapne on rakhna.
17:58Thick hai?
17:59Thick hai?
18:00Thick hai?
18:01Thick hai?
18:02Thick hai?
18:03Thick hai?
18:05Thick hai?
18:06Thick hai?
18:07Thick hai?
18:08Thick hai?
18:09Thick hai?
18:11Thick hai?
18:12Thick hai?
18:13Thick hai?
18:14Thick hai?
18:15Thick hai?
18:16Thick hai?
18:17Thick hai?
18:18Thick hai?
18:19Thick hai?
18:20Thick hai?
18:21Thick hai?
18:22Thick hai?
18:23Thick hai?
18:24Thick hai?
18:25Thick hai?
18:26Thick hai?
18:27Thick hai?
18:28Thick hai?
18:29Thick hai?
18:30Thick hai?
18:31Thick hai?
18:32Thick hai?
18:33Thick hai?
18:34Thick hai?
18:35Thick hai?
18:36Thick hai?
18:37Thick hai?
18:38Thick hai?
18:39Thick hai?
18:40Thick hai?
18:41Thick hai?
18:42Thick hai?
18:43Thick hai?
18:44Thick hai?
18:45Thick hai?
18:46Thick hai?
18:47Thick hai?
18:48Thick hai?
18:49Thick hai?
18:50Thick hai?
18:51Thick hai?
18:52Thick hai?
18:53So you have to check the air density, so you have to check the air density.
19:01So you have to calculate your calculations, or you have to make a model,
19:07then you have to follow the standards.
19:11And then you have to go to analysis, then you have to go to analysis.
19:17So you have to go to output.
19:19So you have to think that the air density is going to be affected.
19:33Duct sizing, in which the number of numbers, the calculation of the answer is also affected.
19:42you have to check that. Normally, if you look at it, it is 0.01805 CP and here is 1.81
19:59exponents of 5 kg per meter second. This is different. But I don't say that this is
20:10much more than that. But it depends on your region, where you are, where you are, what
20:24you are, what you are doing, what you are doing, what you are doing, what you are doing.
20:35In particular, you can see the point of the left.
20:41Separate is very easy.
20:44If you look at the size, width or height,
20:49you have a definition of X.
20:52You can see the definition of X.
20:55That's how you can write it.
20:57If you want text to write tags or annotation,
21:00you can see the other.
21:03then rectangular, obtain of the size suffix that means suffix is maybe prefix.
21:07Then Gradectite uses a dimension like width , height & length then this is three dimensions given.
21:15If width or Γ, height can be be 1.
21:17Or length do where you need lengthasabeque so it means length as you can add suffix and suffix.
21:25This means you can add something to the result while use an substitution in
21:27an ending of the sentence then you sum up franchiscus an exception is to which your
21:30values, whatever you want to add. You don't need length to add, but you can add anything. First,
21:38width, width, height, height, then you can add mm. So, you can add mm. So, you can add mm.
21:50So, you can add surface. You can add length. You can add dimension. First, state the primary width,
21:58depth than the height than the length. Then, you can add surface. So, you can add surface.
22:10They show you can add we can add surface. You can add surface to your surface to your surface.
22:18That means that you can add 200 by 200 and you can add surface to your surface to your surface.
22:27So CFM is good.
22:28So you can use CFM to be able to give it.
22:36In this case, you can use the rise, drop annotation.
22:40So you can use the size of the size to drop.
22:44So you can use the value that you can use.
22:50The value of 3.0 mm is given.
22:54So, if we look at this, if we look at this, then we will see this.
23:00In Revit, Duct, Rise, Drop, Annotation Size, Control the Fixed Blocked Size of the Single Line Rise and Drop Symbols.
23:07Manage in Mechanical Settings, System Tear Mechanical Settings, Affecting All System Unless Overridden or Linked to Annotation Scale.
23:14To adjust, you need to go to Mechanical Settings, Find the Duct, Rise, Drop, Annotation Site Field and Set a Value like 3 mm.
23:22Do Ensuring Use Annotation Scale for Single Line Fitting Unchecked for Fixing Size or Checked to Scale with View Annotation.
23:32So, if you have an annotation, where you can rise or drop, you can see your size.
23:42So, if you have an annotation, where you can go, where you can go, where you can go, where you can go.
23:53In общем, this is how the tennis class will be at work because they are joining us.
24:03This is because the running JUD loiter is not accurate for before you.
24:07That means that you can compare a video file from a process of settings.
24:09new section or elevation. So, if you can change the view of scale. If you can change the view of scale,
24:21then you can change the view of the size. So, when you change the view of the size,
24:36you can change the view of the size. So, if you look at the view of scale,
24:42you know what you can change the view of the size,
24:48then it will change the view of size,
24:50and you can change the view of the size.
24:56again, flat on top. ici, then you can go up, down, from top. You can go up from the top.
25:08Then you can go down, down to you. Then you can go down and you can do a whole thing in
25:22سنگل لائن کے اندر تو وہاں پر آپ نے
25:24کیا جو ہے وہ
25:26اسمار کرنے یا کیا
25:28جو آپ کے ab valleшийنز ہیں
25:30یا کیا آپ کے مخفف ہیں
25:31وہ کیا آپ اسمار کر سکتے ہیں
25:33یہ ساری چیزیں اس کے لیے جو ہے
25:35بنائی جاتی ہیں سٹھا کہ آپ
25:37اس کو اچھی طرح سے فالو کر سکیں
25:39ٹھیک ہے اس کے بعد آ جاتی
25:41angles ٹھیک ہے
25:42angles میں آپ کے آ جاتے ہیں
25:43ٹھیک ہے
25:44مطلب کہ آپ نے فرض کریں
25:46کوئی سپیسپیک angle آپ نے اسمار کرنا
25:4860 degreekt elbow اسمار کر رہی ہوں
25:50आइसndर मैंने इसमाल नहीं करने है ठीक है सिर्फ मैंने 45 की और 90 की की
26:00इसमाल करने है ठीक है यहांपर 60 की समाल करने है तो यहां जाकर अप
26:04शैटिंग भी इसकी जा है चेंज कर सकते हैं ठीक है और उसके बाद जो है आपकी
26:10the increment to determine the angle value. Apeki increment here bhi dee
26:16sakti hai. Ape jake revenue determine kre sakay ki angle value kitnay honi
26:20chahiya. Uske baat conversion da gaya. Conversion mei ape ke paas
26:24sabse uppar mean joh hai sabse pahle system classification. Ape koon
26:29si air ke liye baat kana chahti hai. Koon si air pe kama kaana chahti hai.
26:33Toh yaha pe supplier aya. Supplier mei mein kaya sakhta ho
26:36ke mire paas joh ducts honge, rectangle type honge, ya mire paas wrongs honge, ya
26:40mire paas whole honge. Toh iski joh hai, sari, meinnay pehle bhen ducts
26:45ke liye yahaan peh iski type bata nai hai. Thaik hai? Uske baat uska elevation
26:49bhi bata nai ki te elevation pyaayengi. Yani jiasse ham bottom of duct
26:52kahti hai na. Thaik hai, jisse ham bottom of duct kahti hai. Toh basically
26:56elevation hi hap ka hota hai. Thaik hai, toh elevation yaha peh
26:59joh hai, bata raje. Toh iske baat branchid aajathe. Phrr branchid
27:02honge hiya. Thaik hai, uske baat weh hiyaeta hiya. Thaik hai, aapka
27:06flexible duct taout raha, ho kis tao ka hooga. Different type ka
27:09iaan peh aayaay hondi. Eagerae, raje di fiind kiya ho hands, htik hai?
27:13Phrr uske baat maximum length kitna hooga flexible ka?
27:16Ape kaya? Usse jahe na accid na ter e, tk ha? Thaik hai, thou bhi
27:18jaan peh usse ki value dee sakti hai. Kisith taah apka rectangle duct
27:22min chalere hi toh, apka sizes appetite menea raha raha hai. Here piena
27:24pere koji size آپ delete bhi kar sakti hai. Khoji size آپ pad bhi
27:28work. So, what you can see here. What does it mean for you? If you get it, then you can
27:32ask and you can ask what you like when you drop it. If you select what you have
27:36可是, or you can select it, you need to change the system. You want to delete it.
27:42then you delete it. Then, then you delete it. Then you'll get it. Then you'll get it.
27:45Then you'll get it. Then you'll get it. So, if you do get it. Then you'll get it.
27:50Then you'll see it. Then, if you want to choose to keep the custom, make it.
27:55calculation methods are out here. Here are the tessle equation, the colic brooke equation
28:03is, the island equation is, the island equation is, so different equations are out here
28:09here. The pressure loss is out here, which is calculated. So here you can see that you
28:15can tell us. So this is a whole setting for ducts. HVC for the setting. So this is
28:23So this is my opinion.
28:24I have to explain that I have to explain what is happening and what is happening.
28:28If you understand something, then I will tell you.
28:31I will tell you something about the tutorial and the tutorial and the tutorial.
28:36I will explain what is happening and what is happening.
28:40So, I will tell you something.
28:42In the next video, I will be happy.
28:45Peace be upon you.
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