Weil-McLain 88 manual Install intermediate sections, If using tankless heater TI sections

Page 9

Boiler manual: • Installation • Start-Up • Maintenance • Parts

Assembling the block

Sections are top heavy. Unbolted sections may fall if not supported, resulting in severe personal injury or death.

Install intermediate sections

1.Remove and discard 3/8" diameter shipping tie rods.

2.Remove grit from port machined surfaces with clean rag.

Do not use petroleum-based cleaning or sealing com- pounds in boiler system. Severe damage to system components can result, causing substantial property damage.

3.Position intermediate section so aligning lugs fit into sockets of next section. See Figure 8.

4.Install TI (tankless intermediate) and SI (supply intermediate) sections (when used) in order shown in Figure 9, page 10.

5.Draw sections together until metal-to-metal contact is made around machined port openings (see Figure 8):

a.Oil threads on 4 draw rods. Install washer and nut on end to be tightened. Use nut only on other end.

b.Uniformly draw sections together, starting at washer/nut end.

Important — Leave an equal amount of thread on each end of the draw rod. This is needed to allow securing the jacket support brackets in place. The draw rods must not extend past the face of the front or back section, or they will interfere with the jacket.

c.Draw rods should be torqued to a range of 90 to 100 ft-lbs. Do not back off draw rods.

d.Metal-to-metal contact will be achieved around port openings. See Figure 8. If gap occurs, it should be no greater than .032". Check with feeler gauge.

e.If, for any reason, gap around machined port opening exceeds

.032", check for rope extending from rope grooves, dirt on port openings or sockets, or misaligned lugs. If corrections are made and gap still exists, contact your Weil-McLain distributor or sales office before continuing installation.

Part No. 550-100-068/0308

Figure 8 Sealing ring installation and port alignment

After erecting first intermediate section, check both sections for plumb. Failure to plumb sections can cause misaligned piping and breeching, possibly resulting in property damage.

6.Repeat steps 1-5.

7.Check each section for proper sealing rope position before proceeding to next section.

Failure to position sealing rope properly can cause boiler to not seal gas-tight. Gas tight seal prevents possible flue gas leakage and carbon monoxide emissions, resulting in severe personal injury or death.

8.Install remaining intermediate sections and front section using the same procedure.

If using tankless heater (TI) sections

Install tankless heaters and gaskets or heater cover plates and gaskets. Use 3/8" x 3/4" studs, washers and nuts.

9

Page 8 Page 10
Image 9
Page 8 Page 10
Contents Boiler Manual Read before proceeding Hazard DefinitionsRead before proceeding Contents Installation must comply with Before installing boilerBefore selecting boiler location Provide clearance around boilerCombustion and ventilation air openings Required volume of interior spacesCombustion air openings to inside Combustion air openings to outsideCombustion air combination indoor and outdoor openings Engineered InstallationsLouvers, Grilles, and Screens Mechanical Combustion Air SupplyFor block assembly Set boiler in placeFor packaged boiler Prepare and position back section Assembling the blockIf using tankless heater TI sections Install intermediate sectionsBoiler model Section arrangementNumber Perform hydrostatic pressure test Prepare boiler and testSteam boiler Between 45 and 55 psig Complete block assembly Install burner mounting plate on front sectionInsert HXT-bars Install draft hood collar Install cleanout platesInstall piping Connect water boiler pipingGeneral water piping information By-pass circulator sizing Piping multiple boilersGeneral steam piping information Connect steam boiler pipingDrawing legend & notes Steam boiler piping guidelinesMinimum height of header above water line must be 24 inches Hartford loop piping for all steam boilersModel 1288 through 1888 steam 3 or 4 risers required Multiple Steam Boiler Piping Gravity Condensate Return Before installing jacket Install jacketInstall support brackets/channels Remove jacket parts from cartonsInstall jacket Install jacket side panels Install jacket front and back panelsInstall jacket top panels Install jacket trimJacket side panel placement Jacket top panel placement Pipe tankless heaters To pipe tankless heatersHot water can scald Install controls Install water boiler controlsSteam control locations Install steam boiler controlsSteam control siphon and fittings General venting information Connect breeching and venting systemsSelect type of venting system Construct metal breechingStub vent forced draft single boiler Install burner & wiring and fill system Install fuel piping Fuel oil pipingGas piping Adjust burner and damper assembly Make final adjustmentsFlue gas temperature no lower than 330F Skim steam boilersHandling ceramic fiber and fiberglass materials Removal of Front Plate or Cleanout Plate Materials=B=R RatingsDimensions inches Model DimensionsModel Supply & return tappings Burner lengths Dimension F 1788 1888Dimensions see lettered dimensions on opposite Description Part number PartsParts Weil-McLain Limited Warranties Warranty

88 specifications

The Weil-McLain 88 series is a commercial cast iron boiler recognized for its durability, efficiency, and versatile design, making it a preferred choice for various heating applications. Designed primarily for commercial and industrial use, the Weil-McLain 88 combines advanced technology with proven engineering principles to deliver reliable performance and long-lasting service.

One of the standout features of the Weil-McLain 88 is its cast iron construction. Cast iron is renowned for its ability to retain heat, resulting in lower fuel consumption and more consistent heating. This robust material ensures that the boiler can withstand high temperatures and pressures, making it suitable for heavy-duty applications. The sectional design of the boiler allows for easy installation and maintenance, enabling quick access to components and minimizing downtime.

In terms of efficiency, the Weil-McLain 88 is designed to achieve high thermal efficiency ratings. The boiler employs a flue gas recirculation system, which significantly reduces heat loss and maximizes energy utilization. Additionally, its low water content provides rapid heating response times, ensuring that spaces are heated promptly, even during peak demand periods.

Another noteworthy characteristic of the Weil-McLain 88 is its versatility. The boiler can be configured for a variety of applications, including hot water heating, hydronic heating systems, and steam heating. It is compatible with multiple fuel types, including natural gas, propane, and various oil options, allowing for flexibility in fuel choice based on availability and pricing.

The Weil-McLain 88 also incorporates advanced control technologies that enhance operational efficiency. The integrated electronic controls feature diagnostic capabilities to streamline troubleshooting and maintenance, ensuring optimal performance throughout the boiler’s lifespan. Moreover, the boiler's design is compatible with modern building management systems, allowing for seamless integration into existing heating setups.

Overall, the Weil-McLain 88 series stands out for its combination of quality construction, efficient operation, and adaptability to different heating needs. Whether for a commercial building, industrial facility, or institutional application, the Weil-McLain 88 provides a reliable and efficient heating solution that meets the demands of the modern world.
Top Page Image Contents