D. system design, E. fluid quality, F. corrosion – HTP SSU-119SE User Manual

8

LP-199 REV. 4.15.14

Supply

– The plumbing line running from the outlet of the collector to the tank (or heat exchanger).

Return

– The plumbing line running from the tank (or heat exchanger) to the inlet of the collector. This line incorporates the circulation

pump.

D. SYSTEM DESIGN

PRESSURIZED CLOSED LOOP SYSTEMS
A closed loop system uses non-potable HTF and must be pressurized to less than 72.5 psi. Closed loop systems require an expansion
tank to accommodate HTF expansion. The system should be designed to minimize stagnation after the tank temperature has been met;
extensive stagnation may increase pH levels and glycol deterioration.

The expansion tank and plumbing must be properly sized so that the safety pressure relief valve will not activate except in the event of
component failure or extreme conditions. The pressure release must be set at no more than 90 psi. (There may be exceptions in
engineered designs for tall buildings.)

E. FLUID QUALITY

Water quality is very important. Water in direct flow through the solar collectors must first meet potable water requirements; any fluid
circulated through the collectors should be non-corrosive to copper. In addition, water quality must meet the following requirements.

Hardness: Less than 7 grains
Chloride levels: Less than 100 ppm
pH levels: 6-8
TDS: Less than 2000 ppm
Sodium: Less than 20 mGL

In order to meet health and safety regulations, glycol used in solar water heaters with single wall heat exchangers should be food grade
propylene glycol, FDA rated as “generally recognized as safe” (GRAS). If using a glycol/water mix, distilled water is preferred. If distilled
water is unavailable, the water must meet the above requirements. The glycol content of the liquid must not exceed 50%, unless the
manufacturer specifies that a different ratio is recommended for use with solar water heaters. Glycol should be checked periodically to
prevent it from becoming acidic. Please refer to guidelines provided by the glycol manufacturer regarding glycol maintenance.

NOTE: Glycol not recognized as GRAS may only be used in solar water heaters with double wall heat exchangers.

F. CORROSION

Both copper and stainless steel are susceptible to corrosion when, amongst other factors, high concentrations of chlorine are present.

NOTE: Leakage of the solar water heater due to corrosion caused by improper water quality IS NOT covered by product warranty.

G. FREEZE PROTECTION

Freeze protection must be implemented in any regions that may experience freezing conditions at any time throughout the year.

“Freeze tolerance limits are based upon an assumed set of environmental conditions. Extended periods of cold weather, including
ambient a

ir temperatures below the specified limit, may cause freezing in exposed parts of the system. It is the owner’s responsibility to

keep the system’s freeze protection levels maintained in accordance with the supplier’s instructions if the air temperature is expected to
approach the specified freeze tolerance limit.”

Closed loop systems: In areas with temperatures not falling below 23

o

F, a differential solar controller with freeze protection may be

used (e.g. requiring pump to circulate if the manifold temperature approaches freezing).

Closed loop systems: In areas with temperatures falling below 23

o

F, a propylene glycol/water mix should be used to provide freeze

protection. Please refer to glycol manufacturer’s specifications about the temperature ranges the liquid can withstand. Only food grade
propylene glycol, FDA rated as GRAS, should be used in solar water heaters with single wall heat exchangers.

NOTE: The use of glycol not recognized as GRAS is allowed in double wall heat exchanger models ONLY.

NOTE: HTP DOES NOT WARRANT THE SOLAR WATER HEATER AGAINST FREEZE-RELATED DAMAGE.

PART 3 - GENERAL SOLAR INFORMATION

A. SYSTEM DESCRIPTION

By using the sun’s energy to heat water, solar hot water heating systems help reduce the nation’s dependence on polluting fossil fuels.
This reliable, efficient solar water heater meets the certification requirements of SRCC-OG-300.