SECTION III

FOOD ESTABLISHMENT GUIDE FOR DESIGN, INSTALLATION, AND CONSTRUCTION RECOMMENDATIONS

The hot water supply shall be sufficient to satisfy the continuous and peak hot water demands of the establishment. Hot water for handwashing shall be of a temperature of at least 110°F. Hot water for mechanical dishwashing must be 150°F-165°F for washing and 165°F-180°F for sanitizing. The temperature of the wash solution in spray-type warewashers that use chemicals to sanitize may not be less than 120°F. The water temperature for manual hot water sanitization must be at least 171°F. For purposes of sizing the hot water generating capability, assume a supply temperature requirement of 140°F to each fixture and to the mechanical dishwashing machines.

In the absence of specific hot water usage figures for equipment, the following chart may be used to provide an approximation:

One way to estimate the projected hot water demand (gallons per hour final rinse) of mechanical warewashing machines, pot and pan washers and silverware washers, is to refer to the manufacturer's specification sheet for the particular make and model of the machine.

In order to determine the required capacity and recuperative rate of the hot water generating equipment it will be necessary to calculate both the demand in gallons per hour (GPH) and temperature rise required (assume an incoming water temperature of 40°F to the food establishment unless specific data are available) for each piece of equipment. These figures can then be converted to BTU's (for gas fired heaters) or KW (for electrical heaters). The required BTU or KW capacity of the heater will then be determined by adding up the individual BTU or KW requirements for each piece of equipment.

Note: To convert to BTU's or KW's, use the following formulas: (1 gallon of water = 8.33lbs.)

The following example will illustrate use of the above method of approximating the size of the hot water heater needed for specified equipment:

For the above example, the total demand in BTU's or KW for the primary hot water heater would be:

A booster heater for the warewasher must be provided and sized to supply an additional 30,464 BTU or 6.2 KW.

All hot water generating equipment should conform to nationally recognized standards and be certified or classified by an ANSI certification program. The manufacturers' specification sheets (cut sheets) should be consulted for hot water supply requirements.

The above provides one method of approximation. Other suitably developed calculations may be submitted for consideration. See the Guidelines from the California Directors of Environmental Health as an example of other suitable calculations, also attached are other example calculations from North Carolina's Department of Environmental Health, Food, Lodging, and Institutional Sanitation Branch.

GUIDELINES FOR SIZING WATER HEATERS

California Conference of Directors of Environmental Health
September, 1995

1. BACKGROUND

   A critical factor in preventing foodborne illnesses in a food facility is the provision of an adequate supply of hot water for the washing of hands, utensils, equipment, and the facility itself. The installation of a properly sized water heater will ensure that a sufficient amount of hot water will be available at all times.

2. PURPOSE

   The purpose of these guidelines is to provide a set of criteria that will assist architects, designers, contractors and owners in properly sizing water heaters to adequately meet the anticipated hot water demands of food facilities in California. Food facilities with water heaters sized according to these criteria should be capable of complying with the requirements for providing an adequate hot water supply as required by the California Uniform Retail Food Facilities Law.

3. LEGAL AUTHORITY

   California Health and Safety Code, Chapter 4, Article 8, Sections 27623, 27624, 27625, 27627, and 27627.3.

4. DEFINITIONS
   • Booster Heater: An instantaneous water heater designed and intended to raise the temperature of hot water to a higher temperature for a specific purpose, such as for the sanitizing rinse on a high temperature automatic dishmachine.
   • BTU (British Thermal Unit): The quantity of heat required to raise the temperature of one pound of water one degree Fahrenheit.

   • GPH (Gallons Per Hour): The amount of water, in gallons, that is used each hour by the plumbing fixtures and equipment, such as dishmachines.

   • GPM (Gallons Per Minute): The amount of water, in gallons, flowing through a plumbing fixture or through an instantaneous water heater per minute.

   • Instantaneous Water Heater: A water heater that generates hot water on demand.

   • KW (Kilowatt): A unit of electric power equal to 1,000 watts.

   • Rise: The temperature of water as it leaves the water heater minus the temperature of the water entering the water heater.

   • Storage Water Heater: A water heater that incorporates a thermostat, a storage tank, and a burner or heating elements, to heat and maintain the water within the tank at a specific temperature.

   • Thermal Efficiency: The measure of the overall efficiency of the water heater, taking into consideration loss of energy due to combustion, radiation, convection and conduction of heat from the unit.

5. GENERAL REQUIREMENTS
   1. A water heater shall be provided which is capable of generating an adequate supply of hot water, at a temperature of at least 120° Fahrenheit, to all sinks, janitorial facilities, and other equipment and fixtures that use hot water, at all times.

   2. Water heaters and their installation must be in compliance with all local building code requirements.

   3. Water heaters that use reclaimed heat from equipment to heat water must be evaluated on a case by case basis.

6. SIZING REQUIREMENTS FOR STORAGE WATER HEATERS
   1. For food facilities that utilize multiservice eating and drinking utensils, the water heater shall have a recovery rate equal to or greater than 100% of the computed hourly hot water demand, in gallons per hour (GPH).

   2. For food facilities that use only single-service eating and drinking utensils, or don't use utensils at all, the water heater shall have a recovery rate equal to or greater than 80% of the computed hourly hot water demand, in GPH.

   3. For food facilities that handle and sell only prepackaged foods, a water heater with a minimum storage capacity of ten gallons must be provided.

   4. The hourly hot water demand for the food facility, in GPH, is calculated by adding together the estimated hot water demands for all sinks and other equipment, such as dishmachines, which utilize hot water. The estimated hot water demands for sinks and other equipment that utilize hot water are listed in Appendix I. The hot water demands for automatic warewashers, such as dishmachines, glasswashers, and potwashers are found in NSF International listings or listings established by other nationally recognized testing laboratories.

   5. The following examples are provided to explain how to calculate the total hourly hot water demand:
      1. Food facility that utilizes only single service eating and drinking utensils:

         Assume:
         1 18" X 18" three compartment sink	42 GPH
         2 hand lavatories	10 GPH (5 GPH each)
         1 janitorial sink	15 GPH
         	67 GPH total hourly hot water demand
         67 GPH X 80% allowance for single service utensils = 54 GPH For the food facility in this example, a water heater would be required which will recover 54 GPH.

      2. Food facility that utilizes multiservice eating and drinking utensils:

         Assume:
         1 18" X 18" three compartment sink	42 GPH
         automatic dishmachine	80 GPH
         hand spray pre-rinse	45 GPH
         one compartment food preparation sink	5 GPH
         2 hand lavatories	10 GPH (5 GPH each)
         1 janitorial sink	15 GPH
         	197 GPH total hourly hot water demand
         Since the food facility in this example uses multiservice eating and drinking utensils, 100% of the computed hourly hot water demand must be provided. Therefore, a water heater would be required which will recover 197 GPH.

   6. To compute a BTU or KW rating for the required hourly hot water demand found in example #1 the following formulas should be used:

      Formula 1 (for gas water heaters)

      BTU input	=	GPH X °Rise1 X 8.33 lb./ gallon of water Thermal Efficiency2
      BTU input	=	54 GPH X 50°F X 8.33 lb. .75
      BTU input	=	29,988

      ¹ The average temperature of tap water varies throughout the state depending upon the location, elevation, and time of year. In order to properly size the water heater check with your local health agency to determine the required rise. For the purposes of these guidelines a tap water temperature of 70° Fahrenheit will be used. Therefore, to achieve a temperature of 120° Fahrenheit at the faucet, the required rise would be 50°.

      ² The thermal efficiency for gas water heaters, unless otherwise listed by NSF International or other nationally recognized testing laboratories, will be assumed to be 75%.

      Formula 2 (for electric water heaters)

      KW input =	GPH X °Rise X 8.33 lb./ gallon of water Thermal Efficiency1 X 3412 BTU/KW
      KW input =	54 GPH X 50°F X 8.33 lb. .98 X 3412 BTU/KW
      KW input =	6.7

      ¹ The thermal efficiency for electric water heaters, unless otherwise listed by NSF International or other nationally recognized testing laboratories, will be assumed to be 98%. Sizing tables for gas and electric water heaters are found in Appendices II and III respectively.

7. SIZING REQUIREMENTS FOR INSTANTANEOUS WATER HEATERS
   1. One of the advantages of an instantaneous water heater is its ability to provide a continuous supply of hot water. However, since the water passes through a heat exchanger, the water must flow through the unit slowly to assure proper heat transfer. Therefore, the quantity, or rate, at which the hot water is delivered can be significantly less than that provided by a storage water heater. When hot water is utilized at several locations of the food facility at the same time the flow of hot water to each fixture can be severely restricted. As a result of the restricted output of instantaneous water heaters, more than one unit may be required, depending on the numbers and types of sinks and equipment present. Due to the limitations inherent in the design of instantaneous water heaters, some local health agencies may restrict or prohibit their usage. Check with your local health agency prior to installing an instantaneous water heater in order to determine their requirements.

   2. Instantaneous water heaters must be sized to provide hot water of at least 120° Fahrenheit, and at a rate of at least two gallons per minute (GPM), to each sink and fixture that utilizes hot water. (Note: Hand lavatories must receive at least 1/2 GPM.) The following example is provided to explain how this sizing criteria is applied:

      Assume:
      1 18" X 18" three compartment sink	2 GPM
      2 hand lavatories	1 GPM (1/2 GPM each)
      1 janitorial sink	2 GPM
      	5 GPM

   3. In the example given above, one or more instantaneous water heaters would have to be provided in order to supply a total of at least 5 GPM.

   4. Food facilities that install an automatic warewashing machine that utilizes a large quantity of hot water may be required to provide an instantaneous water heater exclusively for the warewashing machine. NSF International listings or listings established by other nationally recognized testing laboratories are used to determine the minimum GPM hot water demand for automatic warewashing machines

8. REQUIREMENTS FOR BOOSTER HEATERS
   1. When a hot water sanitizing warewashing machine is used, a booster heater must be provided that will raise the incoming general purpose hot water up to at least 180° Fahrenheit for the final sanitizing rinse cycle.

   2. When sizing a booster heater, the hot water demand for the warewashing final sanitizing rinse cycle should be obtained from the NSF International listings or listings established by other nationally recognized testing laboratories.

   3. The formulas for calculating BTU or KW input listed in section VI.F. should be used when determining the minimum required size for a booster heater.

   4. When a booster heater is installed below a drainboard, it shall be installed at least six inches above the floor and away from the wall, and in a manner that will allow accessibility for proper cleaning and servicing.

9. RECIRCULATION PUMPS
   1. Where fixtures are located more than sixty feet from the water heater, a recirculation pump must be installed, in order to ensure that water reaches the fixture at a temperature of at least 120° Fahrenheit

   2. In some cases it may be more practical to install a separate, smaller water heater for remote fixtures, such as for restroom handsinks.

10. INSTALLATION REQUIREMENTS
    1. Where feasible, water heaters should be located in an area of the food facility separated from all food and utensil handling areas.

    2. The Uniform Building Code prohibits the installation of gas water heaters in restrooms or change rooms.

    3. Water heaters shall be mounted in one of the following manners:
       1. On six inch high, easily cleanable legs.

       2. On a four inch high coved curb base. All openings between the water heater and the base must be sealed in a watertight manner.

       3. On a properly finished and installed wall pedestal, positioned so that it is out of the work and traffic space.

       4. In an easily accessible location above a suspended ceiling. Where a permanently installed ladder is required to access the water heater, the ladder shall not be installed above a food or utensil handling area.

          Note: The local health agency may allow alternate installation methods when a water heater is installed in an area separated from food and utensil handling areas, such as in a mechanical room.

    4. A common mistake with electric water heaters is the ordering and installing of a water heater with an upper element of 4500 watts, a bottom element of 4500 watts, and a total connected (or maximum) wattage of 4500 watts. On such a water heater only one element is operating at any one time. Many individuals do not observe the total connected wattage and assume that because each of the elements is 4500 watts their water heater has an input rating of 9000 watts. Water heater manufacturers have specific procedures for rewiring an electric water heater so that the upper and lower elements are operating simultaneously. Some manufacturers only permit rewiring in the factory. Field modifications will normally void warranties and any listings that the unit comes with. Prior to acceptance of a field modified water heater, the local health agency should ensure that the modifications were performed according to the manufacturer's recommendations and with the approval of the local building officials. The data plate on a field modified water heater must be changed to reflect the total connected wattage rating with both elements operating simultaneously.

    5. When multiple water heaters are connected, they must be installed in parallel, not in series (See Appendix IV).

Utensil Sinks
18" X 18"...................................14 gallons per compartment
24" X 24"...................................25 gallons per compartment
Custom sink sizes can be calculated using the following formula:

Bar Sinks
6 gallons per compartment

Food Preparation Sinks
5 gallons per sink

Janitorial Sinks
15 gallons per sink

Garbage Can Wash Facility
15 gallons per facility

Hand Sinks
5 gallons per sink

Pre-rinse Units
Hand spray type.......................45 gallons
Other types...............................Refer to manufacturer's specifications for the equipment

Clothes Washers
9 and 12 pound washers........45 gallons
16 pound washers...................60 gallons

Employee Shower
20 gallons per shower

Other Fixtures That Utilize Hot Water
Refer to manufacturer's specifications for the equipment

WATER HEATER WORKSHEET AND SAMPLE CALCULATIONS

Cited below, and on the next few pages, is information, and sample calculations from the North Carolina Department of Health, Food, Lodging, and Institutional Sanitation Branch.

DETERMINING HOT WATER SUPPLY REQUIREMENTS

The Food Service Advisory Committee has developed a uniform guideline for the sizing of hot water heaters for food service establishments. This guideline is used to insure uniformity on sizing of water heaters throughout the state and to insure food service establishments are provided with sufficient hot water for all operations.

The hot water heater should be sized as follows:

1. The minimum storage capacity for any establishment should be 50 gallons.

2. Hot water recovery is based on fixture requirements in accordance with the table on the next page.

3. A 100% degree-rise in temperature is used in calculating hot water recovery.

Hot Water Heater Size And Capacity
HOT WATER HEATER CALCULATION WORKSHEET
EQUIPMENT	QUANTITY	TIMES	SIZE	EQUALS	GPH
			(in inches)
One-comp. sink See note #4		X	__by__by__	=
Two-comp. sink See note #4		X	__by__by__	=
Three-comp. sink See note #4		X	__by__by__	=
Four-comp. sink See note #4		X	__by__by__	=
One-comp Prep sink		X	5 GPH	=
Two-comp Prep sink		X	10 GPH	=
Three-comp Prep sink		X	15 GPH	=
Three comp. bar sink See note #4		X	__by__by__	=
Four comp. bar sink See note #4		X	__by__by__	=
Hand sink		X	5 GPH	=
Pre-rinse		X	45 GPH	=
Can wash		X	10 GPH	=
Mop sink		X	5 GPH	=
**Dishmachine		X	Note #1	=
**Cloth Washer		X	Note #2	=
**Hose reels		X	Note #3	=
Other equipment		X		=
Other equipment		X		=
Other equipment		X		=
Total 140 F GPH (gallons per hour) Recovery Requirements Total =>
Note - 140° F Hot water heaters are to be sized at the 140° F GPH recovery required at a temperature rise of 100° F.

Note #1	Dishwasher (____ gals/hr. FINAL RINSE x 70%)
Note #2	Cloth Washer Calculation A. Limited Use/Cloth washer used one to two times per day; beginning or ending of day operation GPH = 60 GPH x 25%. B. Intermediate Use/Cloth washer used three to four times per day; GPH = 60 GPH x 45%. C. Heavy Use/Cloth washer used once every two hours; GPH = 60 GPH x 80%. D. Continuous Use/Cloth washer used every hour; GPH = 60 GPH x 100%.
Note #3	Hose reels @ 20 GPH for first reel & 10 GPH for each additional reel.
Note #4 GPH Requirements for sink	GPH = ( Sink size in cu.in. x 7.5 gal./cu.ft. x # compartments x .75 capacity)   ( 1,728 cu.in./cu.ft.)
Short version for above	GPH = Sink size in cu. in. X # compartments x .003255/cu. in. Example 24"x 24"x 14" x 3 compartments x .003255 = 79 GPH
Water heater storage capacity. (______ Gallons Storage)
Water heater recovery rate in gallons per hour at a 100°F temperature Rise. (______Gallons per hour)

SAMPLE CALCULATION

Three comp. sink	1	x	24x24x14	=	79
Two comp.Prep sink	2	x	10 GPH	=	20
Hand sink	5	x	5 GPH	=	25
Pre-rinse	1	x	45 GPH	=	45
Dishmachine	1	x	Note #1	=	52
Can wash	1	x	10 GPH	=	10
Mop sink	1	x	5 GPH	=	5
Cloth Washer	1	x	Note #2	=	27
Hose reel	2	x	Note #3	=	30
	-----------------------------------------------------
	Total GPH Requirement = 293 GPH
Note #1 - Dishmachine - Hobart AM-14 Final Rinse GPH = 74 Using Note #1 - 74 gal/hr Final Rinse x .70% = 51.8(= 52 GPH)
Note #2 - Cloth Washer used 4 times per day = 60 gal x 45% = 27 GPH