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1
ANSI/ASHRAE/IESNA Standard 90.1-2004
ASHRAE’s Newest Commercial Building Standard
Rocky Mountain ChapterTechnical Conference
May 18, 2007
2
Western Mechanical Solutions, llcMichael K. Fulton, P.E.
BSME
2 Years as a General Contractor3 Years as a Consulting Engineer
7 Years as a Sales Engineer6 Years as a Sales Manager
3
Standard 90.1-2004
Developed jointly by the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) and the Illuminating Engineering Society of North America (IESNA)
Developed under American National Standards Institute (ANSI) consensus guidelines
4
Standard 90.1-2004
Developed with participation from many building and construction organizations including:– American Institute of Architects (AIA)– Building Owners and Managers Association
(BOMA)– North American Insulation Manufacturer’s
Association (NAIMA)– Air-Conditioning and Refrigeration Institute (ARI)– Gas Appliance Manufacturers Association
(GAMA)
5
Predecessors to Standard 90.1-2004
Standard 90.1-1999– The US DOE found ASHRAE Standard 90.1-1999
did save energy and states were required to adopt a code that met or exceeded the provisions of Standard 90.1-1999 as their commercial building code by July 15, 2004.
Standard 90.1-2001– Used as the basis of the IECC– The US DOE did not issue a formal determination
on this standard
6
Mandatory, Enforceable Language
Standard 90.1-2004 is a code-intended standard. As such, it is written in unambiguous language intended to allow a code official to say “that complies” or “that doesn’t”There are no “shoulds”, “coulds” or “shall consider” phrases – just lots of “shalls”
7
Based on Consistent Economic Criteria
While previous ASHRAE standards were based on professional judgment combined with analysis of energy and cost impacts, Standard 90.1-2004 is the most recent attempt to use consistent economic criteria as the basis for requirements.
8
True Prescriptive Paths
Anyone who has ever tried to use the ACP tables in Standard 90.1-1989 knows that there is not a true prescriptive path for envelope in the older ASHRAE standards.One of the “code friendly” features of codes is that they do have a simple prescriptive path for all buildings.
9
Renovations and Retrofits
ASHRAE Standards before Standard 90.1-1999 were more or less silent on the concept. All standards were designed for “new construction” but what does that mean? ASHRAE worked with BOMA on Chapter 4 to develop detailed rules for how Standard 90.1-2004 should be applied to renovations and retrofits.
10
Minimally Conditioned Buildings
Buildings that are minimally conditioned or minimally used should not need as stringent energy requirements as buildings that are fully conditioned or fully used. Standard 90.1-1999 took a first step in dealing with minimally conditioned buildings in its’ semi-heated space envelope requirements, and these requirements are contained in Standard 90.1-2004
11
Climate Zones
Standard 90.1-2004 uses climate zones developed for the the US on a county-by-country basis and expressed in map form.The map is the same map used in recent versions of the IECC, and above code documents like ASHRAE’s Advanced Energy Design Guide for Small Office Buildings.
12
Interpretations for Standard 90.1
Users Manual– Provides much of the background
Formal Interpretations– Formal written interpretations take time
Informal Interpretations– Quick, informal answers to questions
Steve Ferguson - ASHRAE Assistant Manager of Standards (404) 636-8400
13
Standard 90.1 – Present
Standard 90.1-2001 is the reference standard for the 2003 IECCStandard 90.1-2004 will be the reference standard for NFPA 5000 and the 2006 IECCStandard 90.1-2001’s Energy Cost Budget method (coupled with 90.1-2001 Addenda e, now 90.1-2004 Appendix G) is the basis for LEED energy points certification
14
Standard 90.1-2004
A total of 32 addenda to Standard 90.1-2001 were processed to completion in time for inclusion in Standard 90.1-2004. See Informative Appendix F to Standard 90.1-2004 for detailsAddenda - 1 admin, 3 ECB, 7 lighting and power, 4 envelope, and 17 mechanical
15
Standard 90.1 - 2007
Next version - 90.1-2007– Still being developed under continuous
maintenance– Addenda under public review
16
Organization of Standard 90.1
1 Purpose2 Scope3 Definitions4 Administration and
Enforcement5 Building Envelope6 Heating, Ventilating,
and Air-Conditioning
7 Service Water Heating
8 Power9 Lighting10 Other Equipment11 Energy Cost
Budget Method12 Normative
References
17
Section 6 - HVAC ComplianceMandatory
Provisions (6.4)
Prescriptive Path (6.5)
Energy Cost Budget (11)
ComplianceSimplified Approach (6.3)
18
Simplified Approach Option(Section 6.3)
Limited to…– buildings with 1 or 2 stories– buildings < 25,000ft2
– single-zone systems– air-cooled or evaporatively-cooled only– Outside air qty less than 3000 cfm at min
Simplified Approach
19
Simplified Approach (cont’d)
Manual changeover or dual set-point thermostatHeat pump supplementary heat controlNo reheat or simultaneous heating and cooling for humidity controlTime clocks (except hotel/motel…)Pipe and ductwork insulated“Ducted system to be air balanced to within 10% of design air flow rates”Interlocked thermostats to prevent simultaneous heating and coolingClosing exhaust dampers (design capacity > 300 cfm unless continuous operation)Optimum start controls (design supply air capacity > 10,000 cfm)
20
HVAC Mandatory Provisions(Section 6.4) Overview
Mechanical Equipment Efficiency (Section 6.4.1)Load Calculations (Section 6.4.2)Controls (Section 6.4.3)HVAC System Construction and Insulation (Section 6.4.4)Completion Requirements (Section 6.7)
Required in both Prescriptive and ECB compliance paths
Mandatory Provisions
21
HVAC Mandatory ProvisionsMechanical Equipment Efficiency(Section 6.4.1)
Table 6.8.1E – (note Tables A, B, D, F and G addenda supplement package for efficiencies)Combination systems to meet all requirements for appropriate space heating or cooling categoryEquipment covered– Package air conditioners– Heat pumps– Chillers– Packaged terminal room air conditioners– Furnaces– Boilers– Heat rejection equipment
22
HVAC Mandatory ProvisionsLoad Calculations (Section 6.4.2)
“…Determined in accordance with generally accepted engineering standards and handbooks acceptable to the adopting authority”– Another difference from the 1989 standard should
be noted. It allowed a load safety factor of 10%. To give designers latitude, for example when expansions are planned, there is no longer an oversizing restriction.
23
HVAC Mandatory ProvisionsControls Overview (Section 6.4.3)
Zone Thermostatic controls (Section 6.4.3.1)Set Point Overlap Restrictions (Section 6.4.3.2)Off-Hour controls (Section 6.4.3.3)Ventilation System Controls (Section 6.4.3.4)Where dampers are required (Section 6.4.3.3.4)Heat Pump Auxiliary Heat Control (Section 6.4.3.4) Humidifier Preheat Controls (Section 6.4.3.5)Humidification and Dehumidification Controls (Section 6.4.3.6)Freeze Protection and Snow/Ice Melting Systems (Section 6.4.3.7)Ventilation Controls for High-Occupancy Areas (Section 6.4.3.8) Exceptions
24
HVAC Mandatory Provisions/ControlsDead Band (Section 6.4.3.1.2)
Thermostats must have a 5°F dead bandExceptions– “Thermostats that require manual changeover
between heating and cooling modes– Special occupancy or special applications where
wide temperature ranges are not acceptable (such as retirement homes, process applications, data processing, museums, some areas of hospitals) and are approved by the authority having jurisdiction. Addendum
25
HVAC Mandatory Provisions/ControlsSet Point Overlap Restriction(Section 6.4.3.1.3)
If limit switches, mechanical stops, or software programming for DDC systems are used– means will be provided “to prevent the
heating set point from exceeding the cooling set point minus any applicable proportional band”
26
HVAC Mandatory Provisions/ControlsOff-Hour Controls(Section 6.4.3.3)
Systems with heating/cooling and fan 1 hp and above:Shall have all of the following off-hour controls
- automatic shutdown- setback controls- optimum start controls- shutoff damper controls- zone isolation
Exceptions, HVAC systems– serving hotel/motel guestrooms– intended to operate continuously”– Less than 15,000 BTU/h with Manual on/off
27
HVAC Mandatory Provisions/ControlsAutomatic Shutdown(Section 6.4.3.3.1)
Controls to operate on different time schedules for seven different day-types per week and retain programming and time setting during loss of power for at least 10 hrs
OR– occupant sensor, OR– manually-operated timer with maximum two hour
duration, OR– interlocked to security system
28
HVAC Mandatory Provisions/ControlsSetback Controls(Section 6.4.3.3.2)
Applies when heating systems are located where heating design temperature is in Climate zone 2-8 and cooling systems located in zones 1b, 2b, and 3b.– Colorado is in climate zones 5b, 6b and 7
“Heating set point adjustable down to 55°FCooling set point adjustable up to 90°F or to prevent high space humidity levels”Exception– “Radiant floor and ceiling heating systems”
29
HVAC Mandatory Provisions/ControlsOptimum Start Controls(Section 6.4.3.3.3)
“Individual heating and cooling air distribution systems with– total design supply air capacity > 10,000 cfm– served by one or more supply fans”
Control algorithm to at least “be a function of– difference between space temperature and
occupied setpoint and amount of time prior to scheduled occupancy”
30
HVAC Mandatory Provisions/ControlsZone Isolation (Section 6.4.3.3.4)
Each isolation area– Maximum 25,000 ft2 zone on one floor– Ability to shut off airflow to isolation area– Automatic shutdown device– Central systems capable of stable
operation for smallest isolation area• Review low load operation of equipment at the
lowest load of smallest isolation area
31
HVAC Mandatory Provisions/ControlsShutoff Damper Controls(Section 6.4.3.3.3)
Motorized dampers for outdoor air supply and exhaust systems that will automatically shut when not in use“Ventilation outside air dampers to be capable of automatically shutting off during– preoccupancy building warm up, cool down, and
setback(Except when ventilation reduces energy costs or
when ventilation must be supplied to meet code requirements)
Supply and exhaust dampers to have maximum leakage rate meeting Table 6.4.3.3.4 when tested in accordance with AMCA Standard 500”
32
HVAC Mandatory Provisions/ControlsShutoff Damper Controls - Exceptions(Section 6.4.3.3.3)
Gravity dampers okay in buildings– < 3 stories in height– any height in climate zones 1, 2 and 3– Systems with design outside air intake or
exhaust capacity 300 cfm or less
33
HVAC Mandatory Provisions/ControlsDampers(Section 6.4.3.3.4)
Max leakage rate - Table 6.4.3.3.4– Denver climate zone 5b
• 10 cfm/ft2 at 1” motorized• 20 cfm/ft2 at 1” non motorized• Exception non motorized dampers less
than 24” in either dimension is 40 cfm/ft2
– Mountains climate zone 6b and 7 max leakage is 4 cfm/ft2 at 1”• Non motorized not allowed
34
HVAC Mandatory Provisions/ControlsVentilation Fan Controls(Section 6.4.3.3.5)
Fans with motors greater than ¾ hp shall have automatic controls complying with Section 6.4.3.2.1 that are capable of shutting off fans when not required.Exception – HVAC systems intended to operate continuously.
35
HVAC Mandatory Provisions/ControlsStair and Shaft Vents(Section 6.4.3.4.1)
Motorized dampers– can be “automatically closed during normal
building operation– interlocked to open as required by fire and
smoke detection systems”
36
HVAC Mandatory Provisions/ControlsGravity Hoods, Vents, and Ventilators(Section 6.4.3.3.2)
“Motorized dampers to automatically shut when spaces served are not in use”Exceptions– Gravity dampers okay in buildings
• < 3 stories in height• of any height in climate zones 1, 2, 3• Unconditioned spaces
37
HVAC Mandatory Provisions/ControlsHumidifier Preheat(Section 6.4.3.5)
“Automatic valve to shut off preheat when humidification isn’t required”
38
HVAC Mandatory Provisions/ControlsHumidification and Dehumidification(Section 6.4.3.6)
For zones served with both humidification and dehumidification capability, means (such as limit switches, mechanical stops, or, for DDC systems, software programming) shall be provided capable of preventing simultaneous operation of humidification and dehumidification equipment.Exceptions – desiccant systems– Zones where specific humidity levels are required,
such as computer rooms, museums, and hospitals and approved by the authority having jurisdiction. Addendum
39
HVAC Mandatory Provisions/ControlsFreeze Protection and Snow/Ice Melting Systems (Section 6.4.3.7)
Automatic controls for – Freeze protection systems
• “off when outside air temperatures > 40°F or when conditions of protected fluid will prevent freezing”
– Snow - and ice-melting systems• “pavement temperature > 50°F and no
precipitation is falling and outdoor temperature > 40°F”
40
HVAC Mandatory Provisions/ControlsVentilation Controls for High-Occupancy Areas (Revised Section 6.4.3.8)
Revised Section 6.4.3.8 as follows:6.4.3.8 Ventilation Controls for High-Occupancy Areas.– Demand Control Ventilation (DCV) is required for spaces larger
than 500 ft2 (50m2) and with a design occupancy for ventilation of greater than 40 people per 1000 ft2 (100 m2) of floor area and served by systems with one or more of the following:
– a. an air-side economizer– b. automatic modulating control of the outdoor air damper,– or– c. a design outdoor airflow greater than 3000 CFM (1,400 L/s)
Exceptions to 6.4.3.8:– Systems with energy recovery complying with 6.5.6.1.– Multiple-zone systems without direct-digital control of individual
zones communicating with a central control panel.– System with a design outdoor airflow less than 1,200 CFM (600
L/s).– Spaces where the supply air flow rate minus any make up or
outgoing transfer air requirement is less than 1,200 CFM (600 L/s).
41
HVAC Mandatory ProvisionsHVAC System Construction and Insulation Overview (Section 6.4.4)
General (Section 6.4.4.1.1) Duct and Plenum Insulation (Section 6.4.4.1.2)Piping Insulation (Section 6.4.4.1.3) Duct Sealing (Section 6.4.4.2.1) Duct Leakage Tests (Section 6.4.4.2.2)
42
HVAC Mandatory ProvisionsInsulation General (Section 6.4.4.1.1)
Insulation installed in accordance with industry accepted standards (appendix E)Insulation– Protected from damage due to sunlight,
moisture, equipment maintenance, and wind– Exposed to weather to be suitable for outdoor
service– “Covering chilled water piping, refrigerant suction
piping, or cooling ducts located outside the conditioned space shall include a vapor retardant located outside the insulation, all penetrations and joints of which to be sealed”
43
HVAC Mandatory Provisions/HVAC InsulationDuct and Plenum Insulation(Section 6.4.4.1.2)
All supply and return ducts and plenums to be insulated per Tables 6.8.2A and 6.8.2BExceptions– Factory-installed plenums, casings, or ductwork furnished
as part of HVAC equipment– Ducts or plenums located in heated, semi-heated, or cooled
spaces– For runouts < 10 ft in length to air terminals or air outlets,
the R-value need not exceed R-3.5– Backs of air outlets and outlet plenums exposed to
unconditioned or indirectly conditioned spaces with face areas > 5 ft2 need not exceed R-2; those 5 ft2 or less need not be insulated
44
HVAC Mandatory Provisions/HVAC InsulationDuct Sealing(Section 6.4.4.2.1)
Table 6.4.4.2A min Duct Seal Level– Seal level based on duct type (supply,
exhaust, return) and duct location (outdoors, unconditioned spaces, conditioned spaces)
Table 6.4.2B Duct Seal Level– lists sealing requirements based on seal
level from Table 6.4.4.2AStandard industry practice
45
HVAC Mandatory Provisions/HVAC InsulationDuct Leakage Tests(Section 6.4.4.2.2)
Designed > 3 in. w.c.– Leak tested– Representative sections no less than 25%
of the total installed duct area shall be tested
– Ratings > 3 in. w.c. to be identified on drawings
46
Permitted duct leakage
– Maximum permitted duct leakage“Lmax = CLP0.65
Where Lmax = maximum permitted leakage in cfm/100 ft2 duct surface area”
47
HVAC Mandatory Provisions/HVAC InsulationPiping Insulation(Section 6.4.4.1.3)
Table 6.8.3– Minimum pipe insulation thickness based on fluid
design operating temperature range, insulation conductivity, nominal pipe or tube size, and system type (Heating, SWH, Cooling)
Exceptions– Factory-installed– Piping conveying fluids between 60o and 105o F.– Piping conveying fluids not heated or cooled
where heat gain/loss won’t increase energy use– Pipe unions in heating systems (steam, steam
condensate, and hot water)”
48
HVAC Prescriptive Path/Economizers
Economizers (Section 6.5.1)
Air Economizers (Section 6.5.1.1)Water Economizers (Section 6.5.1.2)Integrated Economizer Control(Section 6.5.1.3)Economizer Heating System Impact(Section 6.5.1.4)
Prescriptive Path
49
HVAC Prescriptive Path/Air EconomizersEconomizers (Section 6.5.1)
“Each cooling system having a fan shall include either an air or water economizer”Exceptions:– Based on cooling size – Table 6.5.1
• Climate zone 5b, 6b not req’d below 65,000 btu/h• Climate zone 7 not req’d below 135,000 btu/h ???
– non-particulate air treatment as required by 6.2.1 of ASHRAE Standard 62.1 (addendum)
– more than 25% of air is to be humidified above 35o dew point– Condenser heat recovery required by 6.5.6.2– Some residential– Spaces where there is no cooling load at 60 deg– Operation less than 20 hours per week– Supermarkets where economizer will put load on cases– If cooling efficiency exceeds Table 6.3.2
50
HVAC Prescriptive Path/Air EconomizersDesign Capacity (Section 6.5.1.1.1)
“System capable of modulating outdoor air and return air dampers to provide up to 100% of the design supply air quantity as outdoor air for cooling”
51
HVAC Prescriptive Path/Air EconomizersControl Signal (Section 6.5.1.1.2)
“Dampers capable of being sequenced with the mechanical cooling equipment and shall not be controlled by only mixed air temperature”Exception– “MA limit control in systems controlled
from space temperature (such as single-zone systems)”
52
HVAC Prescriptive Path/Air EconomizersHigh Limit Shutoff (Section 6.5.1.1.3)
Automatically reducing outdoor air intake to the design minimum outdoor air quantity when outdoor air intake will no longer reduce cooling energy usage”
Control types for specific climates from Table 6.5.1.1.3A zones 5b, 6b, 7 - Fixed db, Diff db, Electronic Enthalpy, Diff Enthalpy, dew-point and db temp – no fixed enthalpy type
High limit settings from Table 6.5.1.1.3B
53
HVAC Prescriptive Path/Air EconomizersDampers (Section 6.5.1.1.4)
Return air and outside air dampers to meet the damper leakage specified in 6.4.3.3.4
Denver 10 CFM per square foot at 1”
54
HVAC Prescriptive Path/Air EconomizersRelief of Excess Outdoor Air(Section 6.5.1.1.5)
“Means to relieve excess outdoor air during economizer operation to prevent over pressurizing the building
Outlet located to avoid recirculation into the building”
55
HVAC Prescriptive Path/Water EconomizersWater Economizers(Section 6.5.1.2)
Design Capacity:– Provide 100% cooling capacity at outdoor temps
of 50 db/45 wb
Exception:– If dehumidification cannot be met at outdoor
temps of 50/45, then you can use 45 db / 40 wb
Max press drop (6.5.1.2.2)– Coils and other heat transfer shall be less than 15
ft or create a secondary loop to reduce press drop
56
HVAC Prescriptive PathSimultaneous Heating and Cooling Limitation (Section 6.5.2)
Zone controls shall be capable of operating in sequence, the supply of heating and cooling energy to the zone to prevent – reheating, – recooling, – mixing, or – simultaneously supplying air previously heated or cooled
Hydronic system controls to prevent reheating or recooling of fluidsExceptions
57
HVAC Prescriptive PathZone Controls - Exceptions
“Zones for which volume of air that is reheated, recooled, or mixed is no greater than the larger of the following– Volume of outside air to meet 6.2 of ASHRAE 6.2 for the zone (add)– 0.4 cfm/ft2 of zone conditioned floor area– 30% of zone design peak supply– 300 cfm for zones whose peak flow rate totals no more than 10% of
the total fan system flow rate– Any higher rate that can be demonstrated to jurisdiction to reduce
overall system annual energy usage by offsetting reheat/recoolenergy losses through a reduction in outdoor air intake for the system. (addendum)
Zones where special pressurization relationships, cross-contamination requirements, or code-required minimum circulation rates are such that the variable air volume systems are impracticalZones where at least 75% of the energy for reheating or for providing warm air in mixing systems is provided from a site-recovered (including condenser heat) or site solar energy source”
58
HVAC Prescriptive PathAir System Design and Control(Section 6.5.3)
HVAC systems with total fan system power > 5 hp to meet 6.5.3.1 and 6.5.3.2– Fan Power Limitation
– VAV Fan Control
59
HVAC Prescriptive PathFan Power Limitation(Section 6.5.3.1)
Table 6.5.3.1– By supply air volume and allowable nameplate
motor power (constant volume and variable volume)
– Volume CV VAV– < 20k cfm 1.2hp/1000cfm 1.7 hp/1000cfm– >=20k cfm 1.1hp/1000cfm 1.5 hp/1000cfm
Allowable fan system power may be adjusted in certain situations– Filters– Heat recovery– etc
60
HVAC Prescriptive PathPart-Load Fan Power Limitation(Section 6.5.3.2.1)
Individual VAV fans with motors 15 hp or greater– Driven by VFD– Fan shall be van axial with var pitch blades– “Have other controls and devices to result in
fan motor demand of no more than 30% of design wattage at 50% of design air volume when static pressure set point = 1/3 of total design static pressure, based on manufacturer’s certified fan data”
61
HVAC Prescriptive PathStatic Pressure Sensor Location(Section 6.5.3.2.2)
Placed so controller set point is no greater than 1/3 the total design fan static pressure– Except for digital control systems with zone reset
capabilities where it may be at the fan discharge
If this results in the sensor being located downstream of major duct splits, install multiple sensors in each major branch
62
HVAC Prescriptive PathSet Point Reset(Section 6.5.3.2.3)
“For systems with direct digital control of individual zone boxes reporting to the central control panel– Static pressure set point reset based on
zone requiring the most pressure”
63
HVAC Prescriptive PathHydronic System Design and Control (Section 6.5.4)
“HVAC hydronic systems with total pump system power > 10 hp shall meet 6.3.4.1 – 6.3.4.4”
64
HVAC Prescriptive PathHydronic Variable Flow(Section 6.5.4.1)
HVAC pumping systems that include control valves designed to modulate or step open and close as a function of load– Designed for variable fluid flow– Capable of reducing flow rates to 50% or less of
design flow rate“Individual pumps serving variable flow systems with a pump head > 100 ft and motor > 50 hp– Have controls and/or devices resulting in pump
motor demand no more than 30% of design wattage at 50% of design water flow”
65
HVAC Prescriptive PathHydronic Variable Flow –Exceptions
Systems where– “Minimum flow is < minimum flow required by
equipment manufacturer for proper operation of equipment served by the system”
• Chiller with poor water turn down
– Total pump system power no more than 75 hpSystems that include no more than 3 control valves
66
HVAC Prescriptive PathPump Isolation (Section 6.5.4.2)
If chilled water plant has more than one chiller or boiler plant has more than one boiler– Provide for flow reduction when chiller or
boiler is shut down• Prevents mixing, wasting energy
67
HVAC Prescriptive PathChilled and Hot Water Temperature Reset Controls (Section 6.5.4.3)
Affects systems with design capacity > 300,000 Btu/h– “To include controls to automatically reset supply
water temperatures by representative building loads (including return water temperature) or by outside air temperature”
Exceptions– Would result in improper operation
• Watch interior constant loads
– Hydronic systems with variable flow
68
HVAC Prescriptive PathHeat Rejection Equipment(Section 6.5.5)
“Applies to heat rejection equipment used in comfort cooling systems such as– air-cooled condensers– open cooling towers– closed-circuit cooling towers– evaporative condensers
Exceptions– Heat rejection devices included as an integral
part of equipment listed devices whose energy usage is included in Tables 6.2.1A-6.2.1D”
69
HVAC Prescriptive PathFan Speed Control (condenser) (Section 6.5.5.2)
Each fan powered by a motor 7.5 hp or larger shall have– capability to operate fan at 2/3 full speed or less– “controls to automatically change the fan speed to
control the leaving fluid temperature or condensing temperature/pressure of the heat rejection device”
Exceptions
70
Exceptions
Condenser fans serving multiple refrigerant circuits or flooded condensersInstallations located in climate zones 1 and 21/3 of the fans on a multiple fan application speed controlled
71
HVAC Prescriptive PathEnergy Recovery(Section 6.5.6)
Exhaust Air Energy Recovery (Section 6.5.6.1)Heat recovery for Service Water Heating (Section 6.5.6.2)
72
HVAC Prescriptive PathExhaust Air Energy Recovery(Section 6.5.6.1)
Fans systems over 5,000 cfm and minimum OA of 70% or greater of the design supply air quantity shall have an energy recovery system with at least 50% recovery effectiveness.50% effectiveness means change in enthalpy of the OA supply equal to 50% of the difference between the outdoor air and return air at design conditions– Hard to do with coil loops and heat pipes???– Easier with wheels and plate hx
Bypass or control heat recovery for economizer operationExceptions: Lots – labs, un-cooled spaces heated less than 60 deg, toxic, grease kitchen hoods, if 60% of OA heat is site recovered or solar, heating in climate zone 1-3, cooling in some climate zones (Colorado), others
73
HVAC Prescriptive PathHeat Recovery for Service Water Heating(Section 6.5.6.2)
Condenser heat recovery systems shall be installed for heating or preheating of service hot water provided all of the following are true:– 24/7 operation– Heat rejection of water cooled system exceeds 6,000,000
BTU/h (typically 430 to 440 tons of cooling)– Design service water heating load exceeds 1,000,000
btu/h (less than 20 gpm on 100 deg rise)Heat recovery shall be the smaller of:– 60% of peak heat rejection (258 cooling tons)– Preheat service water to 85 deg
Exceptions– If 30% of heat rejection for space heating– Facilities that provide 60% of their service water heating
from site solar or site recovered energy
74
HVAC Prescriptive PathKitchen Hoods (Exhaust)(Section 6.5.7.1)
Hoods > 5000 cfm to be “provided with makeup air sized for at least 50% of exhaust air volume that is a) unheated or heated to no more than 60°F and b) uncooled or cooled without the use of mechanical coolingExceptions– Where hoods are used to exhaust ventilation air that would
otherwise exfiltrate or be exhausted by other fan systems– Certified grease extractor hoods that require a face
velocity no greater than 60 fpm”
75
HVAC Prescriptive PathRadiant Heating Systems(Section 6.5.8)
Required for unenclosed spaces except loading docks with air curtains
“Radiant heating systems that are used as primary or supplemental enclosed space heating must be in conformance with the governing provisions of the standard”
76
HVAC Prescriptive PathHot Gas Bypass Limitation(Section 6.5.9)
Shall not use HGBP (including other evaporator pressure control systems) “unless system is designed with multiple steps of unloading or continuous capacity modulation”Limited to: – 50% capacity 240,000 BTU/h and below – 25% capacity above 240,000 BTU/h
Exception– “Unitary packaged systems with cooling capacities
not greater than 90,000 Btu/h”
77
HVAC Mandatory Provisions/Completion ReqDrawings(Section 6.7.2)
Record drawings of actual installation to building owner within 90 days of system acceptance and include, as a minimum– “Location and performance data on each
piece of equipment– General configuration of duct and pipe
distribution system including sizes– Terminal air or water design flow rates”
78
HVAC Mandatory Provisions/Completion ReqManuals (Section 6.7.2.2)
Operating and maintenance manuals to building owner within 90 days of system acceptance
79
HVAC Mandatory Provisions/Completion ReqSystem Balancing(Section 6.7.2.3)
Balance in accordance w/generally accepted engineering standards (Appendix E)Written report for conditioned zones > 5000 ft2
80
HVAC Mandatory Provisions/Completion ReqAir System Balancing(Section 6.7.2.3.2)
Minimize throttling losses first
For fans with system power > 1 hp– Adjust fan speed to meet design flow conditions
81
HVAC Mandatory Provisions/Completion ReqHydronic System Balancing(Section 6.7.2.3.3)
Proportionately balanced to minimize throttling losses“Pump impeller trimmed or pump speed adjusted to meet design flow conditions”Exceptions– “Pumps with pump motors 10 hp or less– When throttling results in < 5% of the nameplate
hp draw, or 3 hp, whichever is greater, above that required if the impeller was trimmed”
82
HVAC Mandatory Provisions/Completion ReqSystem Commissioning(Section 6.7.2.4)
“Control elements are calibrated, adjusted, and in proper working condition”> 50,000 ft2 conditioned area– Except warehouses and semiheated
spaces– Requires commissioning plan provided by
the designer
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Addenda to 90.1 - 2004ANSI/ASHRAE/IESNA Addendaa, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, r, s, t, u, v, x, and akNote that v replaced s – how do you keep up?ANSI/ASHRAE/IESNA Standard 90.1-2004http://www.ashrae.org/doclib/20060815_200661121930_347.pdfClarification on ModelingBaseline Service Hot Water Systems for modelingUpdated referencesRevise Tables 6.8.1A and 6.8.1B to reflect the newly adopted DOE efficiency standards for single-phase air conditioners and heat pumps less than 65,000 Btu/h.Revise minimum efficiency standards for air-cooled air conditioners and heat pumps listed in Tables 6.8.1A and 6.8.1B as follows for heat pumps over 65,000 Btu/h.
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Addenda to 90.1 - 2004Revise the exceptions to Sections 6.4.3.1.2 and 6.4.3.6:6.4.3.1.2 Dead Band & 6.4.3.6 Humidification and DehumidificationRevise Table A2.3 to add U-Factors for Screw-Down Roofs with R-19 Insulation as follows:Revise 5.5.4.4 as follows: 5.5.4.4 Fenestration Solar Heat Gain Coefficient (SHGC).Changes to international Climatic DataRevise Section 6.4.3.8 as follows (I-P and SI units):6.4.3.8 Ventilation Controls for High-Occupancy Areas.Revise Table 6.8.1F as follow (I-P units):TABLE 6.8.1F Gas- and Oil-Fired Boilers—Minimum Efficiency Requirements
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Addenda to 90.1 - 20046.4.1 Equipment Efficiencies, Verification, and LabelingRequirements– 6.4.1.4 Verification of Equipment Efficiencies.– TABLE 6.8.1G Requirements for Performance Heat
Rejection Equipment