PRODUCTS - SHAPEAIR

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PRODUCTS

Dynamically Acoustic VAV Terminal TUD

The New Shapeair TUD VAV Terminals are the new standard in VAV construction and offers precise airflow control for constant (CAV) or Variable (VAV ) HVAC Systems > Thermal and acoustic integrity end to end > Shapeair-select software selection > Low profile construction maximum height 300mm > Air-on/air-off acoustic baffles > Minimised noise generation > Internally isolated low leakage air valve > Cross-flow multi-point sensor > Duct to duct 35mm TDF connection > Thermally rated for climate zones 1 to 8

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Description

The New Shapeair TUD VAV Terminals offer low-profile construction and an inline duct-to-duct connection with thermal integrity end to end as standard. VAV terminals are a crucial component within heating, ventilation and air conditioning (HVAC) systems. VAV terminals are used to create zone control and to precisely regulate the flow of conditioned air, ensuring energy efficiency whilst assuring building occupants experience comfortable temperatures and velocities within the zone of control. VAV terminals play a pivotal role in achieving a balance between occupant comfort and energy efficiency within commercial buildings. Shapeair VAV terminal units can also incorporate control components, such as controller actuator and transformer, which can be factory fitted. Shapeair can factory fit and calibrate free issue controls using in-house testing facilities. Controllers allow the terminal units to regulate the flow rate as dictated by the thermostat or BMS and compensate instantly for any changes in supply air pressure that may alter the supply air volume. Shapeair TUD VAV terminals can be configured for Constant CAV or Variable VAV airflow regulation.

Construction

The TUD VAV terminals have been designed to control dynamically acoustic airflow. Each TUD terminal incorporates acoustic treatment baffles to both air-on and air-off aspects of the terminal. Each terminal isolates the control air valve deep with each terminal with an engineered acoustic barrier to surpress case radiated noise levels. Thermally compliant for condition spaces across Australia, climate zones 1 thru 8. TUD terminals are included in the Shapeair Select software program where you can generate full acoustic data sets and project scheduling.

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Constant Air Volume

Variable Air Volume

Input value for Q must be between 26 and 2000

Air flow max. (Q) l/s

Inlet velocity m/s

Reheat

Differential Static Pressure (Pa)

Input value for must be between 0 and 100

VAV Turn Down %

Air flow min. (Q) l/s

Input value for Heater Capacity must be between 0.75 and 15

Heater Capacity kW

Input value for Heater Capacity must be between 0.25 and 20

Heater Capacity kW

1-phase

3-phase

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	Model	Size	Inlet SIze (mm)	Collar Ø (mm)	Neck Ø (mm)	Neck Ø (mm)	Face (mm)	Face Ø (mm)	Nominal neck size Ø (mm)	Q min (l/s)	Q max (l/s)	W (mm)	H (mm)	Airflow (l/s)	Sleeve O/D (mm)	Sleeve Length (mm)	Length L (mm)	# of Slots	No. of blades	A_f (m²)	A_f (%)	A_f (m²)	B min (m)	T (m)	Throw,(m) secondary	Throw @ 100% Air flow (m)	NC @ 100% Air flow	Throw @ 25% Air flow (m)	NC @ 25% Air flow	T - Horizontal (m)	T - Vertical (m)	NR - Horizontal	NR - Vertical	L_wa (dB (A))	NR	NR	ΔP - Horizontal (Pa)	ΔP - Vertical (Pa)	Recommended diffusers distance, D (m)	ΔP (Pa)	ΔPs (Pa)	ΔPt (Pa)	Radiated Noise NR (2)	Discharge Noise NR (2)	H (m)	V (m/s)	V (m/s)	V_n (m/s)	V_f (m/s)	Inlet velocity (m/s)	V_c (m/s)	V_f (m/s)	Exhaust pressure (Pa)	Inlet pressure (Pa)	Q (l/s)	Q_max (l/s)	V_t (m/s)	Rise or Fall (m)	Angular correction (° DEG)	Ver. vane angle (° DEG)	X_0.25 (Min.) (m)	X_0.25 (Max.) (m)	Inlet Static Pressure (Pa)	Inlet Static Pressure (Pa) @ 100% Damper Opening	Inlet Static Pressure (Pa) @ 25% Damper Opening	V (m/s)	Nom. Width (mm)	No. of Blade/s (mm)	Inlet (W x H)	Outlet (W x H)	Duct-To-Duct Length (mm)	{{vm.Selected.CoilNameShort_dis}} Rows/Circuits		Coil Velocity (m/s)	Coil ΔP (Pa)	Water Flow (l/s)	Water Pressure (kPa)
	{{r.Model}}	{{r.Size}}	{{r.InletSize_dis}}	{{r.Collar_dis}}	{{r.Neck_Swirls_dis}}	{{r.Neck_Jet_dis}}	{{r.Face_dis}}	{{r.Face_Jet_dis}}	{{r.Neck_dis}}	{{r.V_min_dis}}	{{r.V_max_dis}}	{{r.Width}}	{{r.Height}}	{{r.Vflow_dis}}	{{r.SleeveD}}	{{r.SleeveLength}}	{{r.Length}}	{{r.NumSlot_dis}}	{{r.BladesNumber}}	{{r.NoOfBlades_dis}}	{{r.Aef_dis \|number:3}}	{{r.Aef1_dis \|number:1}}	{{r.Aef2_dis \|number:3}}	{{r.Ak_dis \|number:3}}	{{r.b_min\|number:2}}	{{r.Throw_dis}}	{{r.ThrowHOR\|number:1}}	{{r.T100_P1_dis}}	{{r.NR100_P1_dis}}	{{r.T25_P2_dis}}	{{r.NR25_P2_dis}}	{{r.H_throw_dis}}	{{r.V_throw_dis}}	{{r.NR_H_dis}}	{{r.NR_V_dis}}	{{r.Lwa_dis}}	{{r.NR_dis}}	{{r.NR_dBA_dis}}	{{r.dp_H_dis}}	{{r.dp_V_dis}}	{{r.distRec_dis}}	{{r.dp_dis}}	{{r.Ps_dis}}	{{r.Pt_dis}}	{{r.Rad_StdCeilAtt_dis}}	{{r.Dsc_StdCeilAtt_dis}}	{{r.H_dis}}	{{r.v_dis\|number:2}}	{{r.v_LSDHI_dis}}	{{r.vn_dis}}	{{r.vf_dis}}	{{r.v_inlet_dis}}	{{r.vc_dis}}	{{r.vf_report_dis}}	{{r.dp_TUR_dis}}	{{r.dp_TUS_dis}}	{{r.p_exhaust_dis}}	{{r.p_inlet_dis}}	{{r.Q_dis}}	{{r.Q_max_dis}}	{{r.vt_dis}}	{{r.RiseFall_dis}}	{{r.deg_dis}}	{{r.ver_deg_dis}}	{{r.X_min_dis}}	{{r.X_max_dis}}	{{r.InStPres_dis}}	{{r.InStPres100_dis}}	{{r.InStPres25_dis}}	{{r.vef_dis}}	{{r.BladeLength_dis}}	{{r.NoOfBlades_dis}}	{{r.Duct_Inlet_dis}}	{{r.Duct_Outlet_dis}}	{{r.Duct_to_Duct_dis}}	{{r.Rows_dis}}	{{r.Circuits_dis}}	{{r.v_coil_dis}}	{{r.dp_coil_dis}}	{{r.q_Wat_dis}}	{{r.dp_Wat_dis}}

	125 Hz	250 Hz	500 Hz	1000 Hz	2000 Hz	4000 Hz	Lw dB(A)	Resultant NR (1)	Resultant NR (2)
Radiated Noise (Sound Power Level, Lw dB, re 10^-12 watts)	{{vm.Selected.Rad_125_dis}}	{{vm.Selected.Rad_250_dis}}	{{vm.Selected.Rad_500_dis}}	{{vm.Selected.Rad_1k_dis}}	{{vm.Selected.Rad_2k_dis}}	{{vm.Selected.Rad_4k_dis}}	{{vm.Selected.Rad_Lw_dis}}	{{vm.Selected.Rad_NR_dis}}	{{vm.Selected.Rad_StdCeilAtt_dis}}
Discharge Noise (Sound Power Level, Lw dB, re 10^-12 watts)	{{vm.Selected.Dsc_125_dis}}	{{vm.Selected.Dsc_250_dis}}	{{vm.Selected.Dsc_500_dis}}	{{vm.Selected.Dsc_1k_dis}}	{{vm.Selected.Dsc_2k_dis}}	{{vm.Selected.Dsc_4k_dis}}	{{vm.Selected.Dsc_Lw_dis}}	{{vm.Selected.Dsc_NR_dis}}	{{vm.Selected.Dsc_StdCeilAtt_dis}}

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