diff --git a/content/Configs/Guides/Guide Dataview.md b/content/Configs/Guides/Guide Dataview.md
index aa4b0dc1..9cc2810b 100644
--- a/content/Configs/Guides/Guide Dataview.md
+++ b/content/Configs/Guides/Guide Dataview.md
@@ -30,7 +30,7 @@ release-date:: 2027-06-18T12:00
```
\- until release!!
```
-P2Y6M2DT16H48M39.113S until release!!
+P2Y6M2DT16H32M52.064S until release!!
## DataviewJS
diff --git a/content/Configs/Guides/Guide Obsidian.md b/content/Configs/Guides/Guide Obsidian.md
index f154254e..a56e1d41 100644
--- a/content/Configs/Guides/Guide Obsidian.md
+++ b/content/Configs/Guides/Guide Obsidian.md
@@ -91,10 +91,10 @@ ___
## References
-Reference to a [[./Guides|File]]
-Reference to a [[Guide Obsidian#Heading 1|Heading]]
-Reference to a [[../../../2024-01-01#^025433|Paragraph]]
-Inline Reference![[Guide Obsidian#Styles|Configs/Guides/Guide Obsidian > Styles]]
+Reference to a [File](./Guides.md)
+Reference to a [Heading](Guide%20Obsidian.md#Heading%201)
+Reference to a [Paragraph](../../../2024-01-01.md#^025433)
+Inline Reference
## Shortcuts
Ctrl = Enable Hover Preview On Links
diff --git a/content/Configs/Guides/Guide Tasks.md b/content/Configs/Guides/Guide Tasks.md
index 9fb07263..ba4845e6 100644
--- a/content/Configs/Guides/Guide Tasks.md
+++ b/content/Configs/Guides/Guide Tasks.md
@@ -27,7 +27,6 @@ NOT (tag includes HideFromTasks)
> [!blue]+ Active Projects
> - [[Projects/2024/ICPS_Research/ICPS_Research.md|ICPS_Research]]
-> - [[Projects/2024/ARC2047H_Project-1_Cheatsheet/ARC2047H_Project-1_Cheatsheet.md|ARC2047H_Project-1_Cheatsheet]]
> - [[Courses/2024/ARC2047H-Building_Science_Materials_and_Construction_3/ARC2047H-Building_Science_Materials_and_Construction_3.md|ARC2047H-Building_Science_Materials_and_Construction_3]]
> - [[Courses/2024/ARC2017H-Research_Methods/ARC2017H-Research_Methods.md|ARC2017H-Research_Methods]]
>
diff --git a/content/Configs/Guides/Guides.md b/content/Configs/Guides/Guides.md
index 4f812466..1e616096 100644
--- a/content/Configs/Guides/Guides.md
+++ b/content/Configs/Guides/Guides.md
@@ -6,13 +6,13 @@ tags:
parents: "[[index]]"
share: true
---
-- [[../../../Guide Advanced Slides|Guide Advanced Slides]]
-- [[./Guide Dataview|Guide Dataview]]
-- [[./Guide Excalibrain|Guide Excalibrain]]
-- [[./Guide Obsidian|Guide Obsidian]]
-- [[../../../Guide PDF++|Guide PDF++]]
-- [[../../../Guide Publisher|Guide Publisher]]
-- [[../../../Guide QuickAdd|Guide QuickAdd]]
-- [[./Guide Tasks|Guide Tasks]]
-- [[./Guide Templater|Guide Templater]]
+- [Guide Advanced Slides](../../../Guide%20Advanced%20Slides.md)
+- [Guide Dataview](./Guide%20Dataview.md)
+- [Guide Excalibrain](./Guide%20Excalibrain.md)
+- [Guide Obsidian](./Guide%20Obsidian.md)
+- [Guide PDF++](../../../Guide%20PDF++.md)
+- [Guide Publisher](../../../Guide%20Publisher.md)
+- [Guide QuickAdd](../../../Guide%20QuickAdd.md)
+- [Guide Tasks](./Guide%20Tasks.md)
+- [Guide Templater](./Guide%20Templater.md)
diff --git a/content/Courses/2024/ARC1046H Structures 1/ARC1046H Structures 1.md b/content/Courses/2024/ARC1046H Structures 1/ARC1046H Structures 1.md
index 26255723..fb6eca33 100644
--- a/content/Courses/2024/ARC1046H Structures 1/ARC1046H Structures 1.md
+++ b/content/Courses/2024/ARC1046H Structures 1/ARC1046H Structures 1.md
@@ -5,8 +5,8 @@ start: 2024-01-05
due:
completion: 2024-04-01
people:
- - "[[People/Dave Bowick|People/Dave Bowick]]"
- - "[[People/Shannon Hilchie|People/Shannon Hilchie]]"
+ - "[Dave Bowick](People/Dave%20Bowick.md)"
+ - "[Shannon Hilchie](People/Shannon%20Hilchie.md)"
location: DA200
weekday: 5
time: 900
@@ -24,11 +24,11 @@ share: true
| Steel | Deck Corrugated Metal | d: **38**, 76mm | d = l / 50 | |
| Steel | Deck Concrete on Corrugated Metal | d: **38**, 76 mm + **64** mm | d = l / 20 | Concrete is usually normal density |
| Steel | Joists Open Web Steel | d: n * **50** mm (2") | d = l / 16 | |
-| Steel | Purlins | [[ARC1046H Structures 1#Standard Steel Sizes|Standard Steel Sizes]] | d = l / 25; b = d / 2-3 | |
-| Steel | Beams | [[ARC1046H Structures 1#Standard Steel Sizes|Standard Steel Sizes]] | d = l / 20; b = d / 2-3 | |
-| Steel | Girders | [[ARC1046H Structures 1#Standard Steel Sizes|Standard Steel Sizes]] | d = l / 15; b = d / 2-3 | |
+| Steel | Purlins | [Standard Steel Sizes](ARC1046H%20Structures%201.md#Standard%20Steel%20Sizes) | d = l / 25; b = d / 2-3 | |
+| Steel | Beams | [Standard Steel Sizes](ARC1046H%20Structures%201.md#Standard%20Steel%20Sizes) | d = l / 20; b = d / 2-3 | |
+| Steel | Girders | [Standard Steel Sizes](ARC1046H%20Structures%201.md#Standard%20Steel%20Sizes) | d = l / 15; b = d / 2-3 | |
| Steel | Trusses | d: n * **50** mm | d = l / 12; b = d / 2-3 | |
-| Steel | Columns | [[ARC1046H Structures 1#Standard Steel Sizes|Standard Steel Sizes]] | w = h / **20**-40 | |
+| Steel | Columns | [Standard Steel Sizes](ARC1046H%20Structures%201.md#Standard%20Steel%20Sizes) | w = h / **20**-40 | |
| Wood | Deck Plywood | c/c: 12, **16**, 20, 24; Subfloors: 6.4, 9.5 mm (1/4, 3/8"); Walls: **12.7**, 15.9, 19.1, 22.2, 25.4 mm (**1/2**, 5/8, 3/4, 7/8, 1"); Roof: **12.7** mm (**1/2**"); Floors: **19.1** mm (**3/4**") | | 4'x8' sheets |
| Wood | Deck Tongue and Groove | d: **38**, 64, 89 mm | d = l / 40 | Standard size matches wood joists |
| Wood | Joists Lumber | w: **38**, 89 mm; d: 89, 140, **184**, 235, 286 mm | d = l / 16 | 16"/400mm c/c |
@@ -143,12 +143,12 @@ Typical slab on grade: Br > 24 kPa
[ARC1046 Lecture 01 Strength, Stiffness, Stability.pptx](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5C2024-01%5CARC1046H%5CLecture%20Slides%5CARC1046%20Lecture%2001%20Strength,%20Stiffness,%20Stability.pptx)
[Videos](https://www.archdaily.com/797373/these-videos-will-help-you-pass-your-are-structural-exam)
-Safe, stable building that is the cheapest possible, while meeting constraints, needs, demands, [[Wiki/NBCC/NBCC|Wiki/NBCC/NBCC]]
+Safe, stable building that is the cheapest possible, while meeting constraints, needs, demands, [NBCC](Wiki/NBCC/NBCC.md)
Engineers working iteratively with Architects
- [x] Buy reading: Science Builders Structural Engineering [completion:: 2024-04-09]
-Structural engineering considers [[ARC1046H Structures 1#Strength|Strength]], [[ARC1046H Structures 1#Structure|Structure]], [[ARC1046H Structures 1#Stiffness|Stiffness]], [[ARC1046H Structures 1#Stability|Stability]].
+Structural engineering considers [Strength](ARC1046H%20Structures%201.md#Strength), [Structure](ARC1046H%20Structures%201.md#Structure), [Stiffness](ARC1046H%20Structures%201.md#Stiffness), [Stability](ARC1046H%20Structures%201.md#Stability).
#### Structure
#### Strength
@@ -259,7 +259,7 @@ The state of being stable, or the opposite of in-stable. Instability can be elas
### Module 2
-![[./Attachments/Assignment 02-6.jpg|Assignment 02-6]]
+
Structural drawing
one should be able to build the entire structure from structural drawings
@@ -300,7 +300,7 @@ Steel and concrete building:
- Left
- Geo datum as cardinal, others as ordinal
- Put the grids in the most convenient place to offset from foundations
- - [x] ![[./Attachments/ARC1046H Structures 1 2024-01-17.png|ARC1046H Structures 1 2024-01-17]]%%[[../../../../ARC1046H Structures 1 2024-01-17|🖋 Edit in Excalidraw]]%% [completion:: 2024-04-10]
+ - [x] %%[🖋 Edit in Excalidraw](../../../../ARC1046H%20Structures%201%202024-01-17.md)%% [completion:: 2024-04-10]
- Only describe the extent when it’s not obvious
- Describe top of steel / beam everywhere (sometimes indicated on schedule)
- sometimes, indicate under side of deck, and top of steel is at underside of deck unless noted
@@ -381,7 +381,7 @@ Alternative Construction Techniques (Glass, Fabric, Straw Bale, Rammed Earth)
- Multiple storey column lifts (steel)
- Minimize transfers
- Cold and hot rolled steel
- - [x] ![[./Attachments/ARC1046H Structures 1 2024-01-24.png|ARC1046H Structures 1 2024-01-24]]%%[[../../../../ARC1046H Structures 1 2024-01-24|🖋 Edit in Excalidraw]]%% [completion:: 2024-04-10]
+ - [x] %%[🖋 Edit in Excalidraw](../../../../ARC1046H%20Structures%201%202024-01-24.md)%% [completion:: 2024-04-10]
- Flange thickness and web thickness not necessarily same width, not working as hard as flange
Steel construction
@@ -479,13 +479,13 @@ ULS: Ultimate Limit State
SLS: Serviceability Limit State
ULS: Strength
-![[./Attachments/2024-03-05T15_12_48-05_00_TWP-X570-WIN10(vlc).jpg|2024-03-05T15_12_48-05_00_TWP-X570-WIN10(vlc)]]
+.jpg)
SLS: Serviceability
Stiffness, Deflection
Use SLS Snow Load Importance Factor
-![[./Attachments/2024-03-05T16_07_18-05_00_TWP-X570-WIN10(vlc).jpg|2024-03-05T16_07_18-05_00_TWP-X570-WIN10(vlc)]]
+.jpg)
### Module 8
@@ -552,7 +552,7 @@ Mos @ 3/4 L:
V = -1/2 P
M = 1/8 PL
-![[./Attachments/Pasted image 20240401222128.png|Pasted image 20240401222128]]
+
---
@@ -596,7 +596,7 @@ M = 0
## Projects
-### [[Projects/Structures 1 - Project 1/Structures 1 - Project 1|Project 1]]
+### [Project 1](Projects/Structures%201%20-%20Project%201/Structures%201%20-%20Project%201.md)
- [x] [ARC1046 Project Description.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5C2024-01%5CARC1046H%5CAssignments%5CARC1046%20Project%20Description.pdf) [due:: 2024-04-30] [completion:: 2024-04-18]
[ARC1046 Project Drawings.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5C2024-01%5CARC1046H%5CAssignments%5CARC1046%20Project%20Drawings.pdf)
@@ -604,8 +604,8 @@ M = 0
-### [[Projects/Structures 1 - Project 2/Structures 1 - Project 2|Project 2]]
+### [Project 2](Projects/Structures%201%20-%20Project%202/Structures%201%20-%20Project%202.md)
-### [[Projects/Structures 1 - Project 3|Project 3]]
+### [Project 3](Projects/Structures%201%20-%20Project%203.md)
-### [[Projects/Structures 1 - Project 4|Project 4]]
+### [Project 4](Projects/Structures%201%20-%20Project%204.md)
diff --git a/content/Courses/2024/ARC2047H-Building_Science_Materials_and_Construction_3/ARC2047H-Building_Science_Materials_and_Construction_3.md b/content/Courses/2024/ARC2047H-Building_Science_Materials_and_Construction_3/ARC2047H-Building_Science_Materials_and_Construction_3.md
index f77fe41c..f6a139f5 100644
--- a/content/Courses/2024/ARC2047H-Building_Science_Materials_and_Construction_3/ARC2047H-Building_Science_Materials_and_Construction_3.md
+++ b/content/Courses/2024/ARC2047H-Building_Science_Materials_and_Construction_3/ARC2047H-Building_Science_Materials_and_Construction_3.md
@@ -5,7 +5,7 @@ start: 2024-09-03
due: 2025-01-03
completion:
people:
- - "[[People/Daniel Haeyoung Chung|People/Daniel Haeyoung Chung]]"
+ - "[Daniel Haeyoung Chung](People/Daniel%20Haeyoung%20Chung.md)"
location: DA200
weekday: 2
time: 1000
@@ -84,7 +84,7 @@ share: true
> [ARC2047+Week+2+Lecture+Notes+on+Psychrometric+Processes+v3 2024-09-10 14_30_31.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5CArchive%5C2024-09%5CARC2047H%5CFiles%5C02%5CARC2047+Week+2+Lecture+Notes+on+Psychrometric+Processes+v3%202024-09-10%2014_30_31.pdf)
> [ASHRAE Psychrometric Chart SI Lecture Demonstration problem.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5CArchive%5C2024-09%5CARC2047H%5CFiles%5C02%5CASHRAE%20Psychrometric%20Chart%20SI%20Lecture%20Demonstration%20problem.pdf)
> [ASHRAE Psychrometric Chart SI.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5CArchive%5C2024-09%5CARC2047H%5CFiles%5C02%5CASHRAE%20Psychrometric%20Chart%20SI.pdf)
-> ![[./Attachments/ARC2047H-Psychrometric Chart/ASHRAE Psychrometric Chart SI.jpg|ASHRAE Psychrometric Chart SI]]
+> 
>
Difference between power and energy
@@ -140,8 +140,8 @@ Thermal comfort directly affects productivity
- Sensible Heat (): H_s
- Total Heat (): H
-[[../../../../ARC2047H-Psychrometric Chart|ARC2047H-Psychrometric Chart]]
-![[../../../../ARC2047H-Psychrometric Chart|ARC2047H-Psychrometric Chart]]
+[ARC2047H-Psychrometric Chart](../../../../ARC2047H-Psychrometric%20Chart.md)
+
> [!abstract]- Lab 1
> 1. Given moist air with a dry-bulb temperature of 27 degrees Celsius and 38% relative humidity use the psychrometric chart to determine the **dewpoint** temperature in degrees Celsius. Provide a numeric answer with one decimal place.
@@ -194,16 +194,16 @@ Thermal comfort directly affects productivity
> [ARC2047 Self Study HW 2 on Solar Position.pdf](file:///D:%5COneDrive%20-%20University%20of%20Toronto%5C_twp%5CDocument%5CScholar%5CUTOR%5CArchive%5C2024-09%5CARC2047H%5CFiles%5C03%5CARC2047%20Self%20Study%20HW%202%20on%20Solar%20Position.pdf)
-[[./Attachments/2024 09 16 week 3 slides v1.pdf|2024 09 16 week 3 slides v1]]
+[2024 09 16 week 3 slides v1](./Attachments/2024%2009%2016%20week%203%20slides%20v1.pdf)
-[[./Attachments/ARC2047H-32N Sunpath Chart/32N Sunpath Chart.jpg|32N Sunpath Chart.jpg]]
-[[./Attachments/40N Sunpath Chart.pdf|40N Sunpath Chart.pdf]]
+[32N Sunpath Chart.jpg](./Attachments/ARC2047H-32N%20Sunpath%20Chart/32N%20Sunpath%20Chart.jpg)
+[40N Sunpath Chart.pdf](./Attachments/40N%20Sunpath%20Chart.pdf)
- Always 23.5 degrees between solstice and equinox
- Toronto will never get sun at a degree of 90
- For 32N, winters have a narrower arc than summers
- - ![[./Attachments/2024 09 16 week 3 slides v1.pdf#page=6&rect=96,20,488,410|p.6]]
+ - 
- Sunpath horizontal projection, sky vault
- Equidistant sunpath diagram
- polar coordinate system
@@ -223,13 +223,13 @@ Thermal comfort directly affects productivity
- Vertical Shadow Angle: VSA, vertical angle between the ground plane an the shadow cast by the lading edge of an overhang
- **VSA = arctan(tan(altitude)/cos(HSA))** (Calculator in degrees)
- tan(VSA) = tan(altitude)/cos(HSA)
-- ![[./Attachments/2024 09 16 week 3 slides v1.pdf#page=26&rect=160,95,725,434|p.26]]
+- 
- **Horizontal Projection = Window Height ÷ tan(VSA)**
- **Lateral Projection = tan(HSA) × Horizontal Projection**
- **Vertical Projection = Window (Shade) Width ÷ tan(HSA)**
- - ![[./Attachments/2024 09 16 week 3 slides v1.pdf#page=48&rect=75,4,743,538|p.48]]
+ - 
-![[../../../../ARC2047H-32N Sunpath Chart|ARC2047H-32N Sunpath Chart]]
+
> [!abstract]- Lab 2
>
@@ -643,7 +643,7 @@ Cooling Loads
- 1 kWh = 1000 Wh
- **1 $/kWh = 1/1000 $/Wh**
-![[../../../../ARC2047H-Solar Insolation|ARC2047H-Solar Insolation]]
+
> [!yellow]- HD / CD Calculator
>
@@ -740,7 +740,7 @@ Cooling Loads
> 5) A desired indoor summer temperature of 72F.
> Find the approximate Summer Balance Point Temperature for the building in degrees F.
>
-> ![[../../../../ARC2047H-Solar Insolation|ARC2047H-Solar Insolation]]
+> 
>
> BPT = T_desired - Q_i ÷ UA_total
> Q_i = (1239 × 3991 ÷ 24 × (1-0.76)) + 20982 = 70,430.49
@@ -750,7 +750,7 @@ Cooling Loads
> 1) CDD = 1,513 Fdays
> 2) Summer BPT = 56.7F
>
-> ![[./Attachments/Appendix B1 MEEB Climatic Conditions.jpg|500]]
+> 
>
> CLH (h) = CDD × 24 (h/day) ÷ (Design Temperature - Summer BPT)
> CLH = 1513 × 24 ÷ (80.6 - 56.7) = 1519 h
@@ -768,17 +768,17 @@ Cooling Loads
#### Module 08
> [!blue]- Links
-> [[./Attachments/2024+10+22+week+8+slides+v3 2024-10-22 14_37_23.pdf|2024+10+22+week+8+slides+v3 2024-10-22 14_37_23]]
+> [2024+10+22+week+8+slides+v3 2024-10-22 14_37_23](./Attachments/2024+10+22+week+8+slides+v3%202024-10-22%2014_37_23.pdf)
>
-> [[./Attachments/20241022 week 8 slides v3 2024-10-22 14_42_07.pdf|20241022 week 8 slides v3 2024-10-22 14_42_07]]
+> [20241022 week 8 slides v3 2024-10-22 14_42_07](./Attachments/20241022%20week%208%20slides%20v3%202024-10-22%2014_42_07.pdf)
>
-> [[./Attachments/ARC2047HF+HVAC+Distribution+Metric+Example 2024-10-22 14_29_56.pdf|ARC2047HF+HVAC+Distribution+Metric+Example 2024-10-22 14_29_56]]
+> [ARC2047HF+HVAC+Distribution+Metric+Example 2024-10-22 14_29_56](./Attachments/ARC2047HF+HVAC+Distribution+Metric+Example%202024-10-22%2014_29_56.pdf)
>
-> [[./Attachments/ARC2047HF+HW5+Solutions 2024-10-22 14_30_05.pdf|ARC2047HF+HW5+Solutions 2024-10-22 14_30_05]]
+> [ARC2047HF+HW5+Solutions 2024-10-22 14_30_05](./Attachments/ARC2047HF+HW5+Solutions%202024-10-22%2014_30_05.pdf)
>
-> [[./Attachments/ARC2047HF+HW6+-+Self+Study+-+HVAC+Distribution 2024-10-22 14_30_15.pdf|ARC2047HF+HW6+-+Self+Study+-+HVAC+Distribution 2024-10-22 14_30_15]]
+> [ARC2047HF+HW6+-+Self+Study+-+HVAC+Distribution 2024-10-22 14_30_15](./Attachments/ARC2047HF+HW6+-+Self+Study+-+HVAC+Distribution%202024-10-22%2014_30_15.pdf)
>
-> [[./Attachments/Week+8+Charts+and+Tables 2024-10-22 14_29_53.pdf|Week+8+Charts+and+Tables 2024-10-22 14_29_53]]
+> [Week+8+Charts+and+Tables 2024-10-22 14_29_53](./Attachments/Week+8+Charts+and+Tables%202024-10-22%2014_29_53.pdf)
HVAC Distribution
- Pressure in ducts measured in Pascal or inches of water
@@ -786,7 +786,7 @@ HVAC Distribution
- Flow Efficiency
- Circular > Oval | Elliptical > Square > Rectangular
- Diameter at each section of duct
- - ==Critical Path: Duct Size and Shape== [[./Attachments/2024+10+22+week+8+slides+v3 2024-10-22 14_37_23.pdf#page=31&selection=0,34,0,34|(p.31)]]
+ - ==Critical Path: Duct Size and Shape== [(p.31)](./Attachments/2024+10+22+week+8+slides+v3%202024-10-22%2014_37_23.pdf.md#page=31&selection=0,34,0,34)
- 2in of insulation on each surface
- Turning radius is usually twice the duct diameter
- Air Velocity (fpm) at each section of duct
@@ -808,8 +808,8 @@ HVAC Distribution
- Limited by shortest distance from AHU to openings
- **V (cfm): Volumetric Flow Rate**
- Is governed by the greater of cooling or heating loads
- - [[ARC2047H-Building_Science_Materials_and_Construction_3#^2de642|q_cooling load (Btu/h | tons)]]
- - q_heating load (Btu/h | tons) = [[ARC2047H-Building_Science_Materials_and_Construction_3#^6c9468|UA_total (Btu/h F)]] × ∆T
+ - [q_cooling load (Btu/h | tons)](ARC2047H-Building_Science_Materials_and_Construction_3.md#^2de642)
+ - q_heating load (Btu/h | tons) = [UA_total (Btu/h F)](ARC2047H-Building_Science_Materials_and_Construction_3.md#^6c9468) × ∆T
- ∆T = BPT - Design Dry Bulb Winter
- V_sum (cfm) = Loads (ton) × V/ton
- V/ton
@@ -817,20 +817,20 @@ HVAC Distribution
- 54 (L/s/kW)
- q_1ton (Btu/h) = V/ton × Heat Capacity of Air (Btu·min/ft3·F·h) × ∆T
- 12000 = V/ton × 1.08 × ∆T_register
- - ==Often the difference at the register is about 20°F. Due to losses along the length we can estimate the temperature difference at the air handler to be about 40% greater, 28°F== [[./Attachments/2024+10+22+week+8+slides+v3 2024-10-22 14_37_23.pdf#page=3&selection=30,0,36,2|(p.3)]]
+ - ==Often the difference at the register is about 20°F. Due to losses along the length we can estimate the temperature difference at the air handler to be about 40% greater, 28°F== [(p.3)](./Attachments/2024+10+22+week+8+slides+v3%202024-10-22%2014_37_23.pdf.md#page=3&selection=30,0,36,2)
- V_each = V_sum ÷ number of vent openings
-![[../../../../ARC2047H-Duct Friction Chart|ARC2047H-Duct Friction Chart]]
+
> [!abstract]- Lab 7
>
> 1. For a given building located in Albany, New York the winter balance point temperature is 33.5F and the winter design temperature can be found in Table B.1 (see link below). If the building has a UAtotal = of 3,753 Btu/(hF), what volumetric flow rate of air is needed to adequately heat the building with a forced air system? Provide your answer in cubic feet per minute as an integer.
>
-> ![[./Attachments/Lab/Table B1 New York State.jpg|Table B1 New York State]]
+> 
>
> ∆T = BPT - Design Dry Bulb Winter
> = 33.5 - 2.2 = 31.3
-> q_heating load (Btu/h | tons) = [[ARC2047H-Building_Science_Materials_and_Construction_3#^6c9468|UA_total (Btu/h F)]] × ∆T
+> q_heating load (Btu/h | tons) = [UA_total (Btu/h F)](ARC2047H-Building_Science_Materials_and_Construction_3.md#^6c9468) × ∆T
> = 3753 × 31.3 = 117,468.9 Btu
> = 9.789075 tons
> V_sum = Loads (ton) × V/ton
@@ -846,7 +846,7 @@ HVAC Distribution
>
> 3. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork layout shown in the link below, find the average volumetric flow rate of air per vent opening if the summer cooling load for the building is 11,522 Btu/h and the winter heating load is 29,722 Btu/h. Assume all vent opening are the same size and have the same flow rate. Provide your answer in cubic feet per minute using one decimal place value.
>
-> ![[./Attachments/Lab/lab riser diagram A C D E F blank.jpg|layout]]
+> 
>
> V = 29722 ÷ 12000 × 400 = 990.73 cfm
> V_each = V ÷ 12 = 82.6 cfm
@@ -869,7 +869,7 @@ HVAC Distribution
>
> 5. For a given building the acoustic design of the HVAC system is desired to achieve NC-25 Background Levels. What should the friction loss (in inches of water per 100 ft) be for the supply duct work if the volumetric flow rate for the vent opening at the end of the critical path = 487 cfm? See the acoustics table and friction chart links below. Provide your answer in inches of water per 100 ft using three decimal place values.
>
-> ![[../../../../ARC2047H-Duct Friction Chart|ARC2047H-Duct Friction Chart]]
+> 
> 0.013 in. wtr./100ft
>
> ---
@@ -893,28 +893,28 @@ HVAC Distribution
>
> ---
>
-> 7. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [[./Attachments/Lab/lab riser diagram A C D E F blank.jpg|layout]] shown in the link below, use the friction loss [[./Attachments/ARC2047H-Duct Friction Chart/friction loss chart ASHRAE 2021.jpg|chart]] to determine the velocity of air for duct C if the volume of air flow at each vent opening is 85 cfm. Use 0.024 inches of water/100ft as the friction loss for the ductwork. Provide your answer in feet per minute as an integer. Do not use units in your answer.
+> 7. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [layout](./Attachments/Lab/lab%20riser%20diagram%20A%20C%20D%20E%20F%20blank.jpg) shown in the link below, use the friction loss [chart](./Attachments/ARC2047H-Duct%20Friction%20Chart/friction%20loss%20chart%20ASHRAE%202021.jpg) to determine the velocity of air for duct C if the volume of air flow at each vent opening is 85 cfm. Use 0.024 inches of water/100ft as the friction loss for the ductwork. Provide your answer in feet per minute as an integer. Do not use units in your answer.
>
> 85 × 3 = 255 cfm
> fpm @ 255 cfm @ 0.024 in. wtr./100ft ~= 390 fpm
>
> ---
>
-> 8. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [[./Attachments/Lab/lab riser diagram A C D E F blank.jpg|layout]] shown in the link below, use the friction loss [[./Attachments/ARC2047H-Duct Friction Chart/friction loss chart ASHRAE 2021.jpg|chart]] to determine the velocity of air for duct B if the volume of air flow at each vent opening is 174 cfm. Use 0.028 inches of water/100ft as the friction loss for the ductwork. Provide your answer in feet per minute as an integer. Do not use units in your answer.
+> 8. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [layout](./Attachments/Lab/lab%20riser%20diagram%20A%20C%20D%20E%20F%20blank.jpg) shown in the link below, use the friction loss [chart](./Attachments/ARC2047H-Duct%20Friction%20Chart/friction%20loss%20chart%20ASHRAE%202021.jpg) to determine the velocity of air for duct B if the volume of air flow at each vent opening is 174 cfm. Use 0.028 inches of water/100ft as the friction loss for the ductwork. Provide your answer in feet per minute as an integer. Do not use units in your answer.
>
> 174 × 6 = 1044 cfm
> fpm @ 1044 cfm @ 0.028 in. wtr./100ft ~= 590 fpm
>
> ---
>
-> 9. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [[./Attachments/Lab/lab riser diagram A C D E F blank.jpg|layout]] shown in the link below, use the friction loss [[./Attachments/ARC2047H-Duct Friction Chart/friction loss chart ASHRAE 2021.jpg|chart]] to determine the clear inside diameter for duct A if the volume of air flow at each vent opening is 170 cfm. Use 0.025 inches of water/100ft as the friction loss for the ductwork. Provide your answer in inches within one decimal place value. Note that duct A is the vertical duct between the AHU and ducts B. Assume duct A is round.
+> 9. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [layout](./Attachments/Lab/lab%20riser%20diagram%20A%20C%20D%20E%20F%20blank.jpg) shown in the link below, use the friction loss [chart](./Attachments/ARC2047H-Duct%20Friction%20Chart/friction%20loss%20chart%20ASHRAE%202021.jpg) to determine the clear inside diameter for duct A if the volume of air flow at each vent opening is 170 cfm. Use 0.025 inches of water/100ft as the friction loss for the ductwork. Provide your answer in inches within one decimal place value. Note that duct A is the vertical duct between the AHU and ducts B. Assume duct A is round.
>
> 170 × 12 = 2040 cfm
> diameter @ 2040 cfm @ 0.025 in. wtr./100ft ~= 23.9 in
>
> ---
>
-> 10. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [[./Attachments/Lab/lab riser diagram A C D E F blank.jpg|layout]] shown in the link below, use the friction loss [[./Attachments/ARC2047H-Duct Friction Chart/friction loss chart ASHRAE 2021.jpg|chart]] to determine the minimum outside diameter for duct D if the volume of air flow at each vent opening is 80 cfm. Use 0.044 inches of water/100ft as the friction loss for the ductwork. Assume 2-inch-thick insulation lining the inside of the duct. Provide your answer in inches within one decimal place value. Assume duct D is round.
+> 10. For a given 3,000 ft2 building (three-story above ground with basement AHU) with the supply ductwork [layout](./Attachments/Lab/lab%20riser%20diagram%20A%20C%20D%20E%20F%20blank.jpg) shown in the link below, use the friction loss [chart](./Attachments/ARC2047H-Duct%20Friction%20Chart/friction%20loss%20chart%20ASHRAE%202021.jpg) to determine the minimum outside diameter for duct D if the volume of air flow at each vent opening is 80 cfm. Use 0.044 inches of water/100ft as the friction loss for the ductwork. Assume 2-inch-thick insulation lining the inside of the duct. Provide your answer in inches within one decimal place value. Assume duct D is round.
>
> 80 × 3 = 240 cfm
> diameter @ 240 cfm @ 0.044 in/. wtr./100ft ~= 9.5 in
@@ -929,7 +929,7 @@ HVAC Distribution
> [!blue]- Links
>
-> [[./Attachments/2024 11 05 week 10 slides EUI and Refrigeration - No LAB.pdf|2024 11 05 week 10 slides EUI and Refrigeration - No LAB]]
+> [2024 11 05 week 10 slides EUI and Refrigeration - No LAB](./Attachments/2024%2011%2005%20week%2010%20slides%20EUI%20and%20Refrigeration%20-%20No%20LAB.pdf)
- EUI: Energy Use Intensity
- Annual kWh/m2 kBtu/ft2
@@ -974,10 +974,10 @@ HVAC Distribution
#### Module 11
> [!blue]- Links
-> [[./Attachments/2024 11 12 week 11 slides v3.pdf|2024 11 12 week 11 slides v3]]
-> [[./Attachments/Example of lab submission for Site Visit.pdf|Example of lab submission for Site Visit]]
-> [[./Attachments/Panasonic 380W panel.pdf|Panasonic 380W panel]]
-> [[./Attachments/toronto green standard.pdf|toronto green standard]]
+> [2024 11 12 week 11 slides v3](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf)
+> [Example of lab submission for Site Visit](./Attachments/Example%20of%20lab%20submission%20for%20Site%20Visit.pdf)
+> [Panasonic 380W panel](./Attachments/Panasonic%20380W%20panel.pdf)
+> [toronto green standard](./Attachments/toronto%20green%20standard.pdf)
##### TGS: Toronto Green Standard
@@ -991,15 +991,15 @@ HVAC Distribution
| Mixed Use (Calculated using a weighted average of the above) | | | | | | |
- **EUI conversion**
- - ==Energy Use Intensity (EUI): 1 kWh = 3412 Btu== [[./Attachments/2024 11 12 week 11 slides v3.pdf#page=6&selection=0,27,2,16|(p.6)]]
- - ==1 m2 = 10.764 ft2== [[./Attachments/2024 11 12 week 11 slides v3.pdf#page=6&selection=4,0,9,0|(p.6)]]
+ - ==Energy Use Intensity (EUI): 1 kWh = 3412 Btu== [(p.6)](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=6&selection=0,27,2,16)
+ - ==1 m2 = 10.764 ft2== [(p.6)](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=6&selection=4,0,9,0)
- **TEUI: Annual Total Energy Use Intensity**
- Average 275
- **TEDI: Annual Thermal Energy Demand Intensity**
- TEDI (kWh/m2/yr) = Annual Thermal Space Conditioning (kWh) ÷ Area (m2)
- Must be below 40 for Tier 1 (mandatory)
- Average 162
- - ==Annual Electricity for Cooling (Wh) = Cooling Load (Btu/h) × CLH (h) × 1/SEER (W/Btu/h)== ([[./Attachments/2024 11 12 week 11 slides v3.pdf#page=5&selection=6,10,8,27|p.5]])
+ - ==Annual Electricity for Cooling (Wh) = Cooling Load (Btu/h) × CLH (h) × 1/SEER (W/Btu/h)== ([p.5](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=5&selection=6,10,8,27))
- TEUI - TEDI = Annual Non-Thermal Energy EUI
- Size renewable **Energy** (kWh/yr) budget using TGS
- Renewable energies
@@ -1008,7 +1008,7 @@ HVAC Distribution
- PSH: Peak Sun Hours
- **1 PSH = 1000 W/m2**
- Maximize Peak sun hour = 4.64 (hours/day) at 35-degree tilt south in Toronto
- - ![[./Attachments/2024 11 12 week 11 slides v3.pdf#page=16&rect=59,47,956,387|p.16]]
+ - 
- Most typical configuration is flat or 10 EW or 5 S degrees because of Peak Sun Hours ÷ m2
- 35 S casts shadows on the next one
- **Commonly spaced to allow maintenance**
@@ -1034,13 +1034,13 @@ HVAC Distribution
- Hydro
- Wind
- 20 times the building size to do something
-- ==Absorption Refrigeration Cycle== ([[./Attachments/2024 11 12 week 11 slides v3.pdf#page=26&selection=0,0,0,30|p.26]])
- - Differs from ==Compressive Refrigeration Cycle== ([[./Attachments/2024 11 05 week 10 slides EUI and Refrigeration - No LAB.pdf#page=13&selection=0,0,0,31|p.13]]) and ==Heat Pump== ([[./Attachments/2024 11 05 week 10 slides EUI and Refrigeration - No LAB.pdf#page=19&selection=0,9,0,9|p.19]])
+- ==Absorption Refrigeration Cycle== ([p.26](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=26&selection=0,0,0,30))
+ - Differs from ==Compressive Refrigeration Cycle== ([p.13](./Attachments/2024%2011%2005%20week%2010%20slides%20EUI%20and%20Refrigeration%20-%20No%20LAB.pdf.md#page=13&selection=0,0,0,31)) and ==Heat Pump== ([p.19](./Attachments/2024%2011%2005%20week%2010%20slides%20EUI%20and%20Refrigeration%20-%20No%20LAB.pdf.md#page=19&selection=0,9,0,9))
- Effective in large scale cooling load of 10 tons +
- Refrigerant
- - Water + Lithium Bromide ==stays above 0°C== ([[./Attachments/2024 11 12 week 11 slides v3.pdf#page=26&selection=5,44,5,59|p.26]])
- - Water + Ammonia, less damaging leak ==can cycle below 0°C== ([[./Attachments/2024 11 12 week 11 slides v3.pdf#page=26&selection=7,50,7,69|p.26]])
- - ![[./Attachments/2024 11 12 week 11 slides v3.pdf#page=26&rect=193,18,776,373|p.26]]
+ - Water + Lithium Bromide ==stays above 0°C== ([p.26](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=26&selection=5,44,5,59))
+ - Water + Ammonia, less damaging leak ==can cycle below 0°C== ([p.26](./Attachments/2024%2011%2012%20week%2011%20slides%20v3.pdf.md#page=26&selection=7,50,7,69))
+ - 
- Vapour is attracted by the strongly concentrated desiccant solution in the absorber chamber after evaporating via absorbing energy in the evaporator chamber from the building closed loop cooling load (13C > 7C)
- Heated solution evaporates hot water vapour from the generator chamber (desorber) (could be solar or geo heated) is attracted to the cooler condenser chamber which is usually paired with a chilling tower to reject heat (29C) to outside, with the left over concentrated desiccant solution pumped back into absorber chamber and the condensed chill water pumped into the evaporator chamber
@@ -1136,7 +1136,7 @@ HVAC Distribution
> Net Zero PV tour, sign up
> Lab due next day 10AM
>
-> Fonts larger than 12 (refer to font sizing daily page ![[../../../../2024-11-09#Font guideline|2024-11-09]])
+> Fonts larger than 12 (refer to font sizing daily page )
> Show all faces of PV to reconcile amount of space required
#### Module 13
@@ -1170,13 +1170,13 @@ HVAC Distribution
## Projects
-### [[../../../../ARC2047H_Project-1_Cheatsheet|ARC2047H_Project-1_Cheatsheet]]
+### [ARC2047H_Project-1_Cheatsheet](../../../../ARC2047H_Project-1_Cheatsheet.md)
-### [[/Projects/2024/ARC2047H_Project-2/ARC2047H_Project-2| ARC2047H_Project-2]]
+### [ ARC2047H_Project-2](/Projects/2024/ARC2047H_Project-2/ARC2047H_Project-2.md)
-### [[/Projects/2024/ARC2047H_Project-3/ARC2047H_Project-3| ARC2047H_Project-3]]
+### [ ARC2047H_Project-3](/Projects/2024/ARC2047H_Project-3/ARC2047H_Project-3.md)
-### [[/Projects/2024/ARC2047H_Project-4/ARC2047H_Project-4| ARC2047H_Project-4]]
+### [ ARC2047H_Project-4](/Projects/2024/ARC2047H_Project-4/ARC2047H_Project-4.md)
## Tagged
diff --git a/content/Projects/2024/Yifu Design Lab/Yifu Design Lab.md b/content/Projects/2024/Yifu Design Lab/Yifu Design Lab.md
index d037e0c7..1202c892 100644
--- a/content/Projects/2024/Yifu Design Lab/Yifu Design Lab.md
+++ b/content/Projects/2024/Yifu Design Lab/Yifu Design Lab.md
@@ -5,7 +5,7 @@ tags:
share: true
status: DONE
---
-%%[parents:: [[../../../../Yifu Ding|Yifu Ding]]]%%
+%%[parents:: [Yifu Ding](../../../../Yifu%20Ding.md)]%%
%%https://bit.ly/45WKQSC%%
%%https://thinkwithpbody.github.io/Yifu-Pages/Projects/2024/Yifu-Design-Lab/Yifu-Design-Lab%%
@@ -38,19 +38,19 @@ Invoice available upon request.
| File Setup | Printing | Filament |
| ---------- | ------------------------------------------------- | ------------- |
-| \$12 | %%\$3%%\$0.05/min | [[Yifu Design Lab#Filament|Filament]] |
+| \$12 | %%\$3%%\$0.05/min | [Filament](Yifu%20Design%20Lab.md#Filament) |
> [!info]
-> [[Yifu Design Lab#Why is there a setup fee|Setup fee]] may be discounted or waived depending on complexity.
+> [Setup fee](Yifu%20Design%20Lab.md#Why%20is%20there%20a%20setup%20fee) may be discounted or waived depending on complexity.
>
> Setup fee will be waived for Bambu Studio sliced .3mf files. However, please be aware that the outcome of the initial print will be final, as no adjustments or reprints will be provided for these waived jobs. The standard "100% satisfaction guarantee," which includes the option for a full reprint or refund if you are not satisfied with your order, does not apply to these waived jobs. If you accept these conditions and wish to proceed with complete control over the print process, please use the following [template](http://www.mediafire.com/view/rgq6dceauc22jln) to get started.
### Getting Started
-1. Follow [[Yifu Design Lab#File Preparation|File Preparation]] and export files.
-2. Choose your [[Yifu Design Lab#Filament|Filament]].
-3. Choose from one of the [[Yifu Design Lab#Quality Presets|Quality Presets]].
-4. Adjust [[Yifu Design Lab#Slicing Options|Slicing Options]] as needed.
+1. Follow [File Preparation](Yifu%20Design%20Lab.md#File%20Preparation) and export files.
+2. Choose your [Filament](Yifu%20Design%20Lab.md#Filament).
+3. Choose from one of the [Quality Presets](Yifu%20Design%20Lab.md#Quality%20Presets).
+4. Adjust [Slicing Options](Yifu%20Design%20Lab.md#Slicing%20Options) as needed.
5. Send your **ZIP** file, **filament**, **preset**, and any **custom options** to Yifu Ding over Teams or [Email](mailto:yifu.ding@mail.utoronto.ca) to place job order.
6. Email transfer fees to yifuding.twp@gmail.com
@@ -208,7 +208,7 @@ Scarf Joint Seam (Contour And Hole)
### File Preparation
-![[./Attachments/Yifu Design Lab/2024-04-10T21_01_21-05_00_TWP-X570-WIN10(Rhino).gif|2024-04-10T21_01_21-05_00_TWP-X570-WIN10(Rhino)]]
+.gif)
*The pricing calculation in this demonstration is outdated.*
#### Orientate
@@ -230,12 +230,12 @@ Files should be exported as **STL in millimetres**.
- Rhino files or incorrectly scaled STL will not be accepted.
- **Each separated body should be one file** regardless of which plate they may be on, to maximize nesting potential.
- When relative positioning is important, add a small bridge with a cross section of 0.5-1mm² (depending on strength requirement) directly on the print bed and boolean union all connected bodies.
-- For multiple objects, use the Rhino command **RunPythonScript** with the [[../../../Wiki/Attachments/Rhino/BatchExportSTLByObj.py|Batch Export Python Script]] to export all selected files at once.
+- For multiple objects, use the Rhino command **RunPythonScript** with the [Batch Export Python Script](../../../Wiki/Attachments/Rhino/BatchExportSTLByObj.py) to export all selected files at once.
- Deliver more than one .stl files as a **ZIP**.
### Showcase
-![[./Attachments/Yifu Design Lab/DSCF4947.jpg|400]]
+
by Arjay Asuncion - 2024
@@ -245,7 +245,7 @@ by Arjay Asuncion - 2024
###### Why is there a setup fee
This setup fee allows me to take more care optimizing your print file and compensates me for my continued presence. Optimizations can massively reduce your print time and filament use, lowering total cost, but each job is different and it takes time. I try my best to provide affordable and environmentally responsible printing service, which is why I offer my time and expertise at a modest fee. You'll always have the option to slice it by yourself and I am pleased to waive the setup fee for such cases, but current success rate for this option is only 0%.
-![[./Attachments/Yifu Design Lab/2024-04-10T00_15_05.jpg|400]]
+
%%
### Tiny Tracker
diff --git a/content/Wiki/Rhino.md b/content/Wiki/Rhino.md
index 9fdb6d9d..985238cf 100644
--- a/content/Wiki/Rhino.md
+++ b/content/Wiki/Rhino.md
@@ -46,15 +46,15 @@ share: true
### Scripts
#### I/O
-[[./Attachments/Rhino/BatchExportSTLByObj.py|BatchExportSTLByObj.py]]
+[BatchExportSTLByObj.py](./Attachments/Rhino/BatchExportSTLByObj.py)
#### View
-[[./Attachments/Rhino/FindAllHiddenClippingPlaneLayers.py|FindAllHiddenClippingPlaneLayers.py]]
+[FindAllHiddenClippingPlaneLayers.py](./Attachments/Rhino/FindAllHiddenClippingPlaneLayers.py)
#### Geo
-[[./Attachments/Rhino/HatchFromCenterline.py|HatchFromCenterline.py]]
-![[./Attachments/Rhino/HatchFromCenterline.gif|HatchFromCenterline]]
+[HatchFromCenterline.py](./Attachments/Rhino/HatchFromCenterline.py)
+
### Plugins
#### Package Manager:
diff --git a/content/index.md b/content/index.md
index c9ccc95e..2e2c34bf 100644
--- a/content/index.md
+++ b/content/index.md
@@ -9,16 +9,16 @@ Hi there, thanks for stopping by (人´∀\`)
I'm a creator offering:
Architecture & Design Services
-[[./Projects/2024/Yifu Design Lab/Yifu Design Lab|Peer 3D Printing Service]]
+[Peer 3D Printing Service](./Projects/2024/Yifu%20Design%20Lab/Yifu%20Design%20Lab.md)
[Blender Files & Scripts](https://30salt.gumroad.com/)
Or... you might be looking for:
-My [[./Wiki/Rhino|Rhino]] custom settings and scripts
-My [[./Configs/Files/Resonant Orbit Calculator.py|Resonant Orbit Calculator]] for KSP
-A guide on using [[../Escape From Tarkov|SPT]]
-Or other Obsidian related [[./Configs/Guides/Guides|Guides]]
+My [Rhino](./Wiki/Rhino.md) custom settings and scripts
+My [Resonant Orbit Calculator](./Configs/Files/Resonant%20Orbit%20Calculator.py) for KSP
+A guide on using [SPT](../Escape%20From%20Tarkov.md)
+Or other Obsidian related [Guides](./Configs/Guides/Guides.md)
What have I been up to?