An estimate of the amount of energy in BTUs to be delivered by the system on an annual basis, which estimate shall be based on the "F" chart analysis or another method appropriate to the system considered, and collector performance data as is determined by a recognized testing lab.

The collector tilt and azimuth angle and a solar path shading diagram for the proposed collector location indicating the shading between the hours of 9:00 a.m. and 3:00 p.m. CST for the entire year.

A plot plan showing the proposed location of the solar collector and any tree and/or structure that presently casts a shadow within 20 feet of the proposed collector location.

A detailed drawing showing anchorage and bearing of collector supports.

Detailed drawings of all piping, pumps, blowers, wiring, storage vessels, ductwork, dampers, valves, insulation and all other material that will be required to install the system.

Generally, the valving arrangement shall conform to the American Standards Association (ASA-Z 21.33, 1950). The HVAC Inspector will recognize as approved valving, arrangements and designs approved by any other nationally recognized approved agency.

A safety relief valve shall be placed downstream from a gas pressure regulator where gas is supplied at pressures in excess of 1/2 pound per square inch. The discharge from the relief valve shall be piped to a safe location outside the building. (Valve setting not to exceed four pounds.)

Provide a suitable pressure gauge in the gas line located downstream from the pressure regulator.

Where a gas supply pressure is higher than that at which the burners are designed to operate, a gas pressure regulator shall be provided to reduce pressure to satisfy design conditions.

Where the gas supply pressure is in excess of 1/2 pound per square inch, the piping system shall be identified indicating the maximum line pressure. It is recommended that the legend "Gas __________ psi" (pounds per square inch, to be inserted in the blank) be applied on gas piping near and downstream from pressure regulator at intervals of 50 feet in every room or area which is less than 50 feet.

Submit two copies of drawings (schematic is acceptable) and specifications to the HVAC Inspector for review and approval.

Allowable loss in pressure to be provided for.

Maximum gas consumption to be provided for.

Length of pipe and number of fittings.

Specific gravity of the gas.

Diversity factor.

Measure the length of pipe from the gas meter to the most remote outlet of the building on that piping system. Where separate or individual fuel lines are extended from the meter to one or more appliances, such as an individual gas line to heating plant, each separate fuel line from the meter shall be considered as a separate piping system.

In Table No. 1, select the horizontal line showing the distance or the next longer distance if the table does not give the exact length.

Use this horizontal line so selected to locate all gas demand figures for this particular system of gas piping.

Starting at the most remote outlet, find in the horizontal line just selected the gas demand for that outlet. If the exact figure of demand is not shown, choose the next larger figure in the same horizontal line.

Above this demand figure in the first line at the top of Table No. 1 will be found the correct size of pipe required to serve such an outlet.

Proceed in a similar manner for each outlet and each section of pipe. For each section of pipe, determine the total gas demand supplied by that section and use the length indicated by Subsection E(5) above, which length is at all times taken as the total distance from the meter to the most remote outlet.

The hourly volume of gas required at each outlet shall be taken as not less than the maximum hourly rating specified by the manufacturer of the appliance or appliances to be connected to each such outlet. Where the manufacturer's rating of an appliance is given in British thermal units (BTUs) per hour, this rating shall be divided by 970 to obtain the corresponding gas demand in cubic feet per hour for natural gas. Where BTU rating of gas appliances to be installed has not been definitely specified, estimate of approximate requirements may be based on current typical appliances.

Gas pipe shall be black wrought iron or steel pipe complying with the American Standard for Wrought Iron and Wrought Steel Pipe, A.S.A. B36D-1939. All pipe fittings (except shutoff cocks or valves) shall be malleable iron or steel when used with wrought iron or steel pipe. In sizes three inches or larger, all piping must be welded. [See Subsection G(1)(b) below.] Exception: Plastic pipe may be used outside of a building only and when it is buried at a minimum depth of 12 inches and when it is used in the sizes of three-eighths-inch outside diameter for gas lights and five-eighths-inch outside diameter for gas grills. The plastic pipe must be an approved type.

The use of welded steel fittings, either shop or field fabricated, and jointing of pipe by welding is permissible.

Plain end pipe with gland-type couplings shall not be used within or under any building or structure but may be used for exterior or underground installations.

Ground joint unions or gasket-type unions with leather gaskets shall be used in gas building piping.

Copper or brass pipe in iron pipe sized when assembled with threaded fittings of the same material may be used. Copper tubing with seat, flared or compression fittings shall not be used for building piping.

Aluminum piping in iron pipe sizes may be used, provided that no aluminum pipe may be used for underground installations, nor in contact with masonry or concealed in walls or partitions constructed of masonry materials, nor exposed to alkaline chemicals, fumes or materials. Aluminum pipe shall not be extended through walls or ceilings.

When gas pipe is to be embedded in concrete or cement, it shall be coated with a corrosion-resisting material or laid in a conduit of iron pipe or glazed tile with tightly sealed joints. Tile joints shall be packed with jute or hemp at the base and remaining joint space filled with cement mortar or hot pour compound suitable for clay pipe. The coating or conduit shall be extended at least two inches beyond the point where the pipe emerges from its concrete embedment. Where the encasing conduit terminates underground, it shall be tightly sealed around the gas pipe with bituminous or asphaltic material to prevent the entrance of moisture. Where pipe is to be embedded directly in a concrete floor, necessary precautions shall be observed to prevent the pipe from being damaged prior to and during the pouring of the concrete floor. The piping shall be installed and supported above the underlying fill so that there will be a minimum thickness of 3/4 inch of concrete both under and over the pipe in the finished installation. Gas pipe shall not be embedded in a cinder fill or in a cinder concrete fill unless the pipe is laid in glazed tile pipe with tightly sealed joints as specified above.

Gas pipe in solid floors, such as concrete, may be laid in channels in the floor suitably covered to permit access to pipe with minimum damage to the building. The channel may be covered with a removable cover or the channel may be filled with some noncorrosive material.

No gas line shall be buried in or contact with the ground or fill under any building or structure unless suitably encased in a conduit installed as prescribed above for embedment in concrete.

Main gas shutoff cocks or gate valves controlling several piping systems shall be placed an adequate distance from each other so they will be easily accessible for operation. These valves shall be plainly marked with a metal tag wired to the valve by the installer so that the piping systems supplied through them can be readily identified.

The main gas shutoff valves on all gas space-heating equipment shall be placed as close as possible to the equipment but shall be located between four feet and six feet above floor level. No main gas shutoff valves shall be concealed in the space-heating cabinet. Exception: On suspended units, rooftop units, space heaters and through-wall units, the gas valve shall be easily accessible and placed within three feet of the unit.

All gas-fired appliances shall be equipped with a main shutoff valve located between the appliance and the building piping. The shutoff valve for heating plants and water heaters shall be of the lever type.

In multiple-tenant buildings supplied through a master meter, a shutoff cock shall be installed in the apartment, to be supplied at each of the appliances. If one riser or fuel line supplies all the gas to any one apartment, only one shutoff cock need be used if installed in this riser or fuel line, but it shall be located so as to be readily accessible.

In the event that shutoff cocks are to be installed on the risers or fuel lines in the basement instead of in the piping at the appliance where the master meter is used, each riser or fuel line shall be tagged with a wired-on metal.