STEAM/HOT WATER UNIT HEATERS MODEL HSB/HC MODEL V/VN MODEL GLW 1-150.
TABLE OF CONTENTS Table of Contents Page I. Design Benefits A. Application, Design, Construction Overview.....................................................3 B. Unit Features – Horizontal Delivery Unit Heaters............................................4 C. Unit Features – Vertical Delivery Unit Heaters.................................................5 D. Unit Features – Power-Throw™ Horizontal Delivery Unit Heaters....................5 E.
DESIGN BENEFITS Application, Design, Construction Overview - All Units Wide Product Selection •R atings as low as 11,300 Btu/hr for hot water to as high as 952,000 Btu/hr for steam, based on standard conditions. •H orizontal, Vertical, and Power-Throw™ (high velocity horizontal air delivery) models offer maximum application flexibility. •R atings are shown as Btu/hr (based on 2 PSI steam, 60°F entering air conditions), eliminating the need to convert from EDR.
DESIGN BENEFITS Unit Features - Horizontal Delivery Unit Heaters Horizontal delivery unit heaters are the most popular of all types. These units are ideal for heating buildings with large open areas and low ceilings. They are used to counter heat loss along outside building walls, especially where windows are present. In addition to the features noted on page 2, features that enhance the popularity of the horizontal delivery unit heater are: • HSB units have top and bottom supply and return connections.
DESIGN BENEFITS Unit Features - Vertical Delivery Unit Heaters Vertical delivery unit heaters are ideal for heating buildings with high ceilings or areas that require the heater to be mounted above obstructions such as craneways. Selection from a variety of heat throw patterns is made easy by choosing from four types of air deflectors. Heat throw patterns range from a high-velocity narrow jet to a gentle-velocity broad based cone of heated air.
DESIGN BENEFITS Unit Features - Low Water Temperature Greenhouse Heating Units The Modine model GLW units are specifically designed to heat greenhouses with low-temperature water. They can be successfully used in applications where waste or reject heat from steam-electric power plants, refineries, pumping stations, distilleries, and other industrial or processing plants can be utilized for heating.
DESIGN BENEFITS Options and Accessories Table 7.1 Factory Mounted Options Factory Mounted Option Fingerproof Fan Guard Description Standard fan guard may be factory replaced with fingerproof fan guard. For HSB/HC units only. Not available for units with explosion-proof motors. Table 7.
DESIGN BENEFITS Power Code Descriptions & Control Sequence Table 8.
PERFORMANCE DATA Modine Breeze™ AccuSpec Sizing and Selection Program The Modine Breeze AccuSpec is the fastest way to generate performance data based on actual job conditions. The Breeze AccuSpec program is a web-based sizing and selection program. The program provides a series on step-by-step questions that allow for the easy configuration of Modine products.
PERFORMANCE DATA Steam Conversion Tables Table 10.1 and the formulas below are used to determine the heating capacity (Btu/hr) of a unit heater at a steam pressure and/or entering air temperature other than standard conditions of 2 lb. steam, 60°F entering air temperature. Table 10.
PERFORMANCE DATA Steam Conversion Tables Table 11.1 and the formulas below are used to determine the air temperature rise of a unit heater at a steam pressure and/or entering air temperature other than standard conditions of 2 lb. steam, 60°F entering air temperature. Table 11.
PERFORMANCE DATA Steam Conversion Tables Table 12.1 is used to determine how steam pressures other than 2 lb. affect mounting height. Table 12.1 Steam Unit Heater Mounting Height Correction Factors jk Steam Pressure, PSIG 2 5 10 15 20 30 40 50 60 70 80 90 Correction Factor 1.00 0.97 0.94 0.92 0.89 0.86 0.84 0.82 0.80 0.79 0.77 0.76 100 125 150 175 200 225 250 0.76 0.74 0.72 0.71 0.70 0.69 0.68 j Factors are for use with entering air temperatures that range from 50° to 70°F.
PERFORMANCE DATA Steam Performance Data - Standard Models Table 13.1 - Performance Data for Standard Units at Standard Conditions of 2 lb. Steam and 60°F Entering Air High Motor Speed Air Data Type Horizontal Delivery Power Throw™ Vertical Delivery Model No.
PERFORMANCE DATA Steam Performance Data - Low Outlet Temperature Models Table 14.1 - Performance Data for Low Outlet Temperature Units at Standard Conditions of 2 lb. Steam and 60°F Entering Air High Motor Speed Air Data Type Model No. Btu/hr Sq. Ft.
PERFORMANCE DATA Steam Conversion Tables - Example Calculations Conversion factor example #1: For an HSB340S operating at 30 lb. steam and 50°F entering air temperature, determine the following: • • • • Capacity (Btu/hr) Final air temperature (°F) Condensate (lb./hr) Maximum mounting height Solution: The factors/data necessary to solve this problem are as follows: • Steam heating capacity conversion factor for 30 lb. steam and 50°F entering air is 1.43, from Table 10.1.
PERFORMANCE DATA Hot Water Conversion Tables Table 16.1 and the formulas below are used to determine the heating capacity (Btu/hr) of a unit heater at a water temperature and/ or entering air temperature other than standard conditions of 200° entering water temperature, 60° entering air temperature. Table 16.1 Hot Water Heating Capacity Conversion Factors Entering Water Temp.
PERFORMANCE DATA Hot Water Conversion Tables Table 17.1 - Minimum Water Flow and Water Volume (gallons) j Type Model Min. GPM Max. GPM Coil Volume (gals) Type Model Min. GPM Max. GPM Coil Volume (gals) 18 0.25 5 0.13 279 4.50 60 0.97 24 0.25 5 0.13 333 4.50 100 1.24 33 0.40 10 0.41 385 4.50 100 1.24 47 0.40 10 0.41 500 6.00 100 1.66 63 0.50 20 0.66 610 6.00 100 1.98 86 0.50 20 0.66 952 14.00 200 6.50 HORIZONTAL POWER108 0.50 30 0.98 TM DELIVERY THROW 121 0.50 30 0.98 HSB/HC 165 2.
PERFORMANCE DATA Hot Water Conversion Tables - Miscellaneous Formulas Table 18.1 is used to determine how water temperature drop affects heater capacity in Btu, water flow rate in GPM and pressure drop in feet of water. These factors should be applied to the values at actual entering water and air temperature conditions. Table 18.1 Correction Factors for Varying Water Temperature Drop j Water Temperature Drop, °F 5 10 15 20 25 30 35 40 Btu Correction Factor 1.23 1.13 1.06 1.00 0.95 0.90 0.86 0.
PERFORMANCE DATA Hot Water Performance Data - Standard Models Table 19.1 - Performance Data for Standard Units at Standard Conditions of 200°F Entering Water and 60°F Entering Air High Motor Speed Water Data Type Horizontal Delivery Power Throw™ Vertical Delivery Model No.
PERFORMANCE DATA Hot Water Performance Data - Low Outlet Temperature Models Table 20.1 - Performance Data for Low Outlet Temperature Units at Standard Conditions of 200°F Entering Water and 60°F Entering Air – High Motor Speed Water Data Air Data GPM 11,300 13,700 19,300 21,100 37,900 44,600 66,100 66,700 113,200 147,400 161,100 200,900 1.2 1.4 2.0 2.2 4.0 4.6 6.9 6.9 11.8 15.4 16.8 20.9 0.4 0.6 0.2 0.2 0.4 0.6 1.8 1.9 6.6 3.2 3.7 6.6 0.3 / 5.0 0.3 / 5.0 0.4 / 10.0 0.4 / 10.0 0.5 / 20.0 0.5 / 20.0 0.
PERFORMANCE DATA Hot Water Conversion Tables - Example Calculations Conversion factor example #1: What is the capacity (Btu/hr), water flow rate (GPM), water temperature drop (°F) and final air temperature (°F) for an HSB 86 at 240°F entering water temperature (EWT) and 70°F entering air temperature (EAT)? What is the maximum mounting height? Solution: The factors/data necessary to solve this problem are as follows: • Hot water heating capacity conversion factor for 240°F EWT and 70°F entering air is 1.
PERFORMANCE DATA Maximum Mounting Heights for Vertical Outlet Accessories, Dimensions CONE JET TRUNCONE H ONE WAY LOUVERS TWO WAY LOUVERS H H S S S H H S S Table 22.1 Mounting Height/Spread for Vertical Unit Air Outlet Accessoriesjklm Cone-Jet Standard Truncone L.O.T. Standard One Way Louvers L.O.T. Standard Two Way Louvers L.O.T. Standard L.O.T.
PERFORMANCE DATA Motor Data, Step-Down Transformer Accessory Data Table 23.1 - Motor Data jk Amp Draw by Motor Type, Voltage and Power Code Totally Enclosed Model Number Motor HP l HSB/HC 18 1/60 HSB/HC 24, 33 1/25 HSB/HC 47, 63 1/12 HSB/HC 86, 108 1/8 HSB/HC 121 1/5 HSB/HC 165, 193 1/3 HSB/HC 258-340 1/2 V/VN 42, 59 1/30 V/VN 78, 95 1/15 V/VN 139 1/5 V/VN 161-212 1/3 V/VN 247 1/2 V/VN, PT/PTN 279 1/2 V/VN, PT/PTN 333 3/4 V/VN, PT/PTN 385 1 V/VN, PT/PTN 500, 610 1-1/2 V, PT 952 2 115/60/1 01 0.
DIMENSIONAL DATA Dimensions - Horizontal Air Delivery Models Figure 24.1 - Model Dimensions HSB 18-193 MOUNTING HOLES SIZES 18-24, NO MOUNTING HOLES SIZES 33-86, 3/8"-16 TAP SIZES 108-193, 1/2"-13 TAP B Figure 24.2 - Model Dimensions HSB 258-340 G (MOUNTING HOLES) F (PIPE CONNECTIONS) E MOUNTING HOLES MOUNTING HOLES 1/2" - 13 TAP B E PIPE CONNECTIONS G F WALL A A D C 5" MIN Figure 24.3 - Model Dimensions HC 18-165 D C 5" MIN. Figure 24.
DIMENSIONAL DATA Dimensions - Vertical Air Delivery Models Figure 25.1 - Model V/VN and PT/PTN Dimensions Vertical Air Delivery WVC/WVN 42 THROUGH V/WVN 279 C 4-MOUNTING HOLES 1/2"-13 TAP Power-Throw™ Air Delivery WVC/WVN 333 THROUGH WVC 952 MALE RETURN WVC/WVN 610/952 C C MALE RETURN D 12" MIN 1 REAR HANGER BRACKET (5/8" DIA.) FOR PT/PTN 279 ONLY 8-MOUNTING HOLES 5/8" DIA.
MODEL IDENTIFICATION Model Identification Figure 26.2 Serial Number Designation Figure 26.1 Model Number Designation HSB 108 S Model Type HC / HSB / PT / PTN / V / VN MBH Input @ 2 lbs. steam 60°F E.A.T. Coil Type S - Standard L - Low Outlet Temperature B 01 S 05 A Factory Installed Option A - None Fan Guard Type S - Standard F - Finger Proof Power Code 01 - 115V/60Hz/1ø 02 - 230V/60Hz/1ø etc. Development Sequence B - Current Fan Supplier Code 01 - Revcor 05 - Brookside etc. Figure 26.
SPECIFICATIONS Specification for Horizontal, Vertical and Power-Throw™ Models General Contractor shall furnish and install steam/hot water unit heater model ______. Performance shall be as indicated on the equipment schedule in the plans. Units shall be listed by CSA as certified to CAN/CSA-C22.2 No. 236-05 “Heating and Cooling Equipment” and UL Std. No. 1995 “Heating and Cooling Equipment.” Additionally for Canada, the units shall have CRN registered heat exchangers.
The Modine brand has been the industry standard since Arthur B. Modine invented and patented the first lightweight, suspended hydronic unit heater in 1923. No other manufacturer can provide the combined application flexibility, technical expertise and fast delivery found at Modine. Consult your local Modine distributor for help in solving your indoor air problems.
