2008 ASHRAE Handbook HVAC SytemsandEquipment Chapter6

$14.95

HVAC Sytems and Equipment Handbook – Chapter 6. Panel Heating and Cooling

Published By	Publication Date	Number of Pages
ASHRAE	2008	21

Guaranteed Safe Checkout

Category: ASHRAE

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

Description

PDF Catalog

PDF Pages	PDF Title
1	Principles of Thermal Radiation Principles of Thermal Radiation General Evaluation General Evaluation
2	Heat Transfer by Panel Surfaces Heat Transfer by Panel Surfaces Heat Transfer by Thermal Radiation Heat Transfer by Thermal Radiation
3	Fig. 1 IP Fig. 1 IP Fig. 1 Radiation Heat Flux at Heated Ceiling, Floor, or Wall Panel Surfaces Fig. 1 Radiation Heat Flux at Heated Ceiling, Floor, or Wall Panel Surfaces Fig. 2 IP Fig. 2 IP Fig. 2 Heat Removed by Radiation at Cooled Ceiling or Wall Panel Surface Fig. 2 Heat Removed by Radiation at Cooled Ceiling or Wall Panel Surface Heat Transfer by Natural Convection Heat Transfer by Natural Convection
4	Fig. 3 IP Fig. 3 IP Fig. 3 Natural-Convection Heat Transfer at Floor, Ceiling, and Wall Panel Surfaces Fig. 3 Natural-Convection Heat Transfer at Floor, Ceiling, and Wall Panel Surfaces Fig. 4 IP Fig. 4 IP Fig. 4 Empirical Data for Heat Removal by Ceiling Cooling Panels from Natural Convection Fig. 4 Empirical Data for Heat Removal by Ceiling Cooling Panels from Natural Convection
5	Combined Heat Flux (Thermal Radiation and Natural Convection) Combined Heat Flux (Thermal Radiation and Natural Convection) Fig. 5 IP Fig. 5 IP Fig. 5 Relation of Inside Surface Temperature to Overall Heat Transfer Coefficient Fig. 5 Relation of Inside Surface Temperature to Overall Heat Transfer Coefficient Fig. 6 IP Fig. 6 IP Fig. 6 Inside Surface Temperature Correction for Exposed Wall at Dry-Bulb Air Temperatures Other Than 70ËšF Fig. 6 Inside Surface Temperature Correction for Exposed Wall at Dry-Bulb Air Temperatures Other Than 70ËšF Fig. 7 IP Fig. 7 IP Fig. 7 Cooled Ceiling Panel Performance in Uniform Environment with No Infiltration and No Internal Heat Sources Fig. 7 Cooled Ceiling Panel Performance in Uniform Environment with No Infiltration and No Internal Heat Sources
6	General Design Considerations General Design Considerations Panel Thermal Resistance Panel Thermal Resistance Table 1 Thermal Resistance of Ceiling Panels Table 1 Thermal Resistance of Ceiling Panels
7	Effect of Floor Coverings Effect of Floor Coverings Table 2 Thermal Conductivity of Typical Tube Material Table 2 Thermal Conductivity of Typical Tube Material Table 3 Thermal Resistance of Floor Coverings Table 3 Thermal Resistance of Floor Coverings Panel Heat Losses or Gains Panel Heat Losses or Gains
8	Fig. 8 IP Fig. 8 IP Fig. 8 Downward and Edgewise Heat Loss Coefficient for Concrete Floor Slabs on Grade Fig. 8 Downward and Edgewise Heat Loss Coefficient for Concrete Floor Slabs on Grade Panel Performance Panel Performance Panel Design Panel Design
9	Fig. 9 IP Fig. 9 IP Fig. 9 Design Graph for Sensible Heating and Cooling with Floor and Ceiling Panels Fig. 9 Design Graph for Sensible Heating and Cooling with Floor and Ceiling Panels Heating and Cooling Panel Systems Heating and Cooling Panel Systems
10	Fig. 10 IP Fig. 10 IP Fig. 10 Design Graph for Heating with Aluminum Ceiling and Wall Panels Fig. 10 Design Graph for Heating with Aluminum Ceiling and Wall Panels Special Cases Special Cases
11	Hydronic Panel Systems Hydronic Panel Systems Design Considerations Design Considerations Fig. 11 Both Fig. 11 Both Fig. 11 Primary/Secondary Water Distribution System with Mixing Control Fig. 11 Primary/Secondary Water Distribution System with Mixing Control
12	Fig. 12 Both Fig. 12 Both Fig. 12 Split Panel Piping Arrangement for Two-Pipe and Four-Pipe Systems Fig. 12 Split Panel Piping Arrangement for Two-Pipe and Four-Pipe Systems
13	Hydronic Metal Ceiling Panels Hydronic Metal Ceiling Panels Fig. 13 IP Fig. 13 IP Fig. 13 Metal Ceiling Panels Attached to Pipe Laterals Fig. 13 Metal Ceiling Panels Attached to Pipe Laterals Fig. 14 Both Fig. 14 Both Fig. 14 Metal Ceiling Panels Bonded to Copper Tubing Fig. 14 Metal Ceiling Panels Bonded to Copper Tubing
14	Fig. 15 Both Fig. 15 Both Fig. 15 Extruded Aluminum Panels with Integral Copper Tube Fig. 15 Extruded Aluminum Panels with Integral Copper Tube Fig. 16 IP Fig. 16 IP Fig. 16 Permitted Design Ceiling Surface Temperatures at Various Ceiling Heights Fig. 16 Permitted Design Ceiling Surface Temperatures at Various Ceiling Heights Distribution and Layout Distribution and Layout Fig. 17 Both Fig. 17 Both Fig. 17 Coils in Structural Concrete Slab Fig. 17 Coils in Structural Concrete Slab
15	Fig. 18 IP Fig. 18 IP Fig. 18 Coils in Plaster Above Lath Fig. 18 Coils in Plaster Above Lath Fig. 19 Both Fig. 19 Both Fig. 19 Coils in Plaster Below Lath Fig. 19 Coils in Plaster Below Lath Hydronic Wall Panels Hydronic Wall Panels Fig. 20 Both Fig. 20 Both Fig. 20 Coils in Floor Slab on Grade Fig. 20 Coils in Floor Slab on Grade Hydronic Floor Panels Hydronic Floor Panels
16	Fig. 21 IP Fig. 21 IP Fig. 21 Embedded Tube in Thin Slab Fig. 21 Embedded Tube in Thin Slab Fig. 22 Both Fig. 22 Both Fig. 22 Tube in Subfloor Fig. 22 Tube in Subfloor Fig. 23 Both Fig. 23 Both Fig. 23 Tube Under Subfloor Fig. 23 Tube Under Subfloor Electrically Heated Panel Systems Electrically Heated Panel Systems Electric Ceiling Panels Electric Ceiling Panels
17	Table 4 Characteristics of Typical Electric Panels Table 4 Characteristics of Typical Electric Panels Fig. 24 Both Fig. 24 Both Fig. 24 Electric Heating Panels Fig. 24 Electric Heating Panels
18	Fig. 25 IP Fig. 25 IP Fig. 25 Electric Heating Panel for Wet Plaster Ceiling Fig. 25 Electric Heating Panel for Wet Plaster Ceiling Electric Wall Panels Electric Wall Panels Electric Floor Panels Electric Floor Panels
19	Fig. 26 IP Fig. 26 IP Fig. 26 Electric Heating Cable in Concrete Slab Fig. 26 Electric Heating Cable in Concrete Slab Air-Heated or Air-Cooled Panels Air-Heated or Air-Cooled Panels Fig. 27 Both Fig. 27 Both Fig. 27 Warm Air Floor Panel Construction Fig. 27 Warm Air Floor Panel Construction Fig. 28 Both Fig. 28 Both Fig. 28 Typical Hybrid Panel Construction Fig. 28 Typical Hybrid Panel Construction Controls Controls
20	Sensible Cooling Panel Controls Sensible Cooling Panel Controls Heating Slab Controls Heating Slab Controls Hybrid (Load-Sharing) HVAC Systems Hybrid (Load-Sharing) HVAC Systems Fig. 29 Both Fig. 29 Both Fig. 29 Typical Residential Hybrid HVAC System Fig. 29 Typical Residential Hybrid HVAC System
21	References References Bibliography Bibliography