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Direct Connect 2 X 17
SRCC OG-300 Certified Solar Water Heater System
Installation, Operation and Maintenance Manual
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DIRECT CONNECT 2 X 17
DOMESTIC SOLAR WATER
HEATING SYSTEM INSTALLATION, OPERATION AND MAINTENANCE MANUAL
The Direct Connect 2 X 17 solar water heating system has gone through an extensive technical and performance review
by the Solar Rating & Certification Corporation (SRCC). The installation of Direct Connect 2 X 17 system is to be
performed by properly licensed and experienced professional contractors in accordance with SRCC Standard OG-300,
“Operating Guidelines and Minimum Standards For Certifying Solar Water Heating”, and must conform to applicable
federal, state and local regulations, codes, ordinances and standards governing the installation of solar water heating
systems.
The solar energy system described by this manual, when properly installed and maintained, meets the minimum
standards established by the SRCC. This certification does not imply endorsement or warranty of this product by the
SRCC.
OG-300 system certification for the Direct Connect 2 X 17 system is granted to Sunvelope® Solar Inc. by the SRCC. It
may not be used for any commercial purpose without the prior written consent of Sunvelope®. Sunvelope® must
approve any deviation from the specified materials and methods described in this manual in writing in order not to void
components’ manufacturer warranties.
The inherent Envelope design of the patented collector used in the Direct Connect 2 X 17 solar water heating system
protects system against freeze damage to temperatures as low as -40ºF (-40ºC). This system should not be installed in
areas where the annual ambient temperature has ever fallen below -40° Fahrenheit (-40° Celsius).
Freeze tolerance limits are based upon an assumed set of environmental conditions. Extended periods of cold weather,
including ambient air temperatures below the specified limit, may cause freezing in exposed parts of the system. It is the
owner’s responsibility to protect the system in accordance with these instructions if the ambient air temperature
approaches the specified freeze tolerance limit.
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This product certified by:
Solar Rating & Certification
Corporation™
www.Solar-Rating.org
Sunvelope Solar.
96 Glen Carran Cir. #105
Sparks, NV 89431
USA
Solar Energy Factor
(SEFD) SRCC Cert. No. Model No.
1.99 30004157 DIRECT CONNECT 30
The installed system is marked above
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TABLE OF CONTENTS
Safety Information
A. Introduction
B. System Description and Operation
C. General Installation Requirements
D. System Installation Requirements
E. System Start Up Procedures
F. System Operation
G. Shut Down Procedures
H. Summer Vacation Procedures
I. Maintenance and Troubleshooting
J. Direct Connect 2 X 17 System Component Parts
K. System Operating Parameters
Appendix A. OG-300 Approved Primary Components
Appendix B. Direct Connect 2 X 17 OG-300 Labels
Appendix C. Sunvelope® Solar Collector Product Warranty
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IMPORTANT SAFETY INFORMATION
READ ALL INSTRUCTIONS BEFORE USING.
DANGER - WATER TEMPERATURE SETTING
Water temperatures above 125°F can cause severe burns or death from scalding. Maximum water temperatures
occur just after the heating element(s) has shut off. To find hot water temperature being delivered, turn on a hot water
faucet and place a thermometer in the hot water stream and read the thermometer. The following chart may be used as a
guide in determining the proper water temperature for your home.
TIME/TEMPERATURE RELATIONSHIPS IN SCALDS
TEMPERATURE TIME
125° F 1/2 to 2 minutes
130° F About 30 seconds
135° F About 10 seconds
140° F Less than 5 seconds
145° F Less than 3 seconds
150° F About 1 1/2 seconds
155° F About 1 second
The temperature of the water in the heater can be regulated by setting the temperature dial on front of the mixing valve
or thermostat. There is a Hot Water SCALD Potential if the mixing vale or thermostat’s temperature is set too high.
WARNING
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For your safety, the information in this manual must be followed to minimize the risk of fire or explosion, electric shock,
or to prevent property damage, personal injury, or loss of life. Be sure to read and understand the entire Installation,
Operation and Maintenance Manual before attempting to install or operate this solar water heating system. Pay particular
attention to the Safety Instructions. Failure to follow these warnings could result in serious bodily injury or death.
Should you have problems understanding the instructions in this manual, or have any questions, STOP, and get help
from a qualified service technician.
FOR INSTALLATIONS IN THE STATE OF CALIFORNIA California Law requires that residential water heaters must be braced, anchored or strapped to resist falling or horizontal
displacement due to earthquake motions. For residential water heaters up to 52 gallon capacity, a brochure with generic
earthquake bracing instructions can be obtained from: Office of the State Architect, 1102 Q Street, Suite 5100,
Sacramento, CA 95814 or you may call 916-445-8100 or ask a water heater dealer. However, applicable local codes
shall govern installation. For residential water heaters of a capacity greater than 52 gallons, consult the local building
jurisdiction for acceptable bracing procedures.
SAFETY PRECAUTIONS Have the installer show you the location of the circuit breaker and how to shut it off if necessary. Turn off the circuit
breaker if the water heater has been subjected to overheating, fire, flood, physical damage or if the ECO fails to shut off.
Read this manual entirely before installing or operating the water heater.
Use this appliance only for its intended purpose as described in this Installation, Operations and Maintenance
Manual
Be sure your appliance is properly installed in accordance with local codes and the provided installation
instructions.
Do not attempt to repair or replace any part of your water heater unless it is specifically recommended in this
manual. All other servicing should be referred to your installing contractor or Sunvelope® Solar Inc.
READ AND FOLLOW THIS SAFETY INFORMATION CAREFULLY.
SAVE THESE INSTRUCTIONS
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A. INTRODUCTION
Solar water heating systems are climate and site specific appliances. Different types of solar systems are installed in
accordance with regional weather and water quality conditions. System performance varies as a function of the
household hot water load, including daily showers, laundry and kitchen uses, the average ground water and ambient air
temperatures, the home’s roof pitch and orientation, and, of course, the seasonal intensity of solar radiation. These
variables, some of which change from home to home on the same neighborhood street, will determine how much energy
the Sunvelope Direct Connect 2 X 17 system will generate each year of operation.
The Direct Connect 2 X 17 solar water heating system is an “Active Open- Loop System” system meaning the water
flows directly through the hot water solar collector, using a DC pump powered by a solar panel to circulate water in the
system.
This manual provides a basic “solar water heating primer”. Our goal is to familiarize you with the proper installation,
operation, and maintenance of your Direct Connect 2 X 17 solar water heating system. This system is required to be
installed by properly licensed solar or plumbing contractors in accordance with SRCC Standard OG-300 and all
applicable national, state and local codes, ordinances and regulations governing solar installations as well as good trade
practices. Failure to follow the procedures and practices described in this manual may void manufacturer warranties for
specific component parts.
This manual covers installations utilizing two FPE-17 Sunvelope® collectors with a single 50-gallon electric water
heater tank. Frequent reference will be made throughout this manual to specific component parts. The placement of each
component in the system is depicted in Figure 1.
B. SYSTEM DESCRIPTION AND OPERATION
The Sunvelope® Direct Connect 2 X 17 solar hot water system is designed with many unique features, safeguards and
controls. Figure (1) is a basic schematic drawing showing the general location of these features, showing an active
“open loop” configuration. Potable water is the only approved heat transfer fluid that can be utilized in the Direct
Connect 2 X 17 system.
The key components in the Direct Connect 2 X 17 solar water heating system include the patented FPE-17 Sunvelope®
solar collector, Sunvelope® Pump Station which includes a circulation pump, a 10 watt PV panel to power circulating
pump and a High Temperature Limit (HTL) switch. The electric hot water tank, expansion tank and mixing valve may
be supplied as part of the system or supplied separately.
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FIGURE 1
SYSTEM SCHEMATIC
The simple and elegant design of the patented Sunvelope® FPE-17 collector makes it possible to install open loop
systems in hard freeze areas. The Sunvelope® FPE-17’s freeze resistance has been tested in accordance with ISO
9806:2013. The FPE-17, in conjunction with the recommended PEX tubing, corrugated stainless tubing and
recommended connections, enables a system that will not be damaged by freezing or static flow conditions.
The Sunvelope® FPE-17 collector is 3’ X 5’ 9” and features a patented envelope type absorber plate in which the water
inside the envelope is in direct contact with the entire internal surface. This allows for very high flow rates while
providing an optimal temperature differential across the collector. Additionally, due to the greatly increased surface
contact area, when the temperature of the water inside the collector rises, the efficiency of the collector drops and self
modulates the high temperature potential as long as the flow is continuous. The Sunvelope® FPE-17 collector is fitted
with an attached thermistor and High Temperature Limit switch (HTL) which will shut off the PV powered DC pump at
the factory preset temperature of 170°F. Because the thermistor is installed on the back of the absorber plate, the high
Collector
Expansion Tank
Tank
Pump Station
Return into T&P
PV Panel
Mixing Valve
HTL Switch
Supply from Boiler Drain
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limit will not permit the pump to restart as long as the collector temperature is above 170 degrees F. Corrugated stainless
tubing is used for the first 3 feet past the collector outlet on the hot side to protect the PEX from potentially high
temperatures. Additionally, a Pressure Relief Valve (PRV) set at 100 PSIG is installed between the corrugated stainless
tubing and PEX tubing in the return loop of the collector. The NP-60 and NP-70 PEX tubing, as manufactured by
NIBCO or equal, is rated for temperatures of 180 degrees F at 100 psi. As an alternative to PEX, stainless steel 304
corrugated tubing manufactured by Falcon Stainless (S12C-10012EP), can be used as suitable piping in hot climates.
The standard Pump Station is compact and designed to reduce installation time and complexity. The Pump Station
features a DC powered, variable speed pump that is powered by a 10-watt solar PV panel. The pump varies speed
according to the available solar insolation thus providing a self-modulating continuous flow which maximizes efficiency
in the desirable temperature range while minimizing over temperature potential. The Pump Station also includes a built
in Joule digital monitoring system, a check valve (back flow preventer), isolation valves at one end, and isolation/purge
valves at the other end. The Joule monitoring system, which includes a flow meter, two built-in temperature sensors,
and the AMBR edge router for internet connection, also has the capability of adding temperature and AC current sensors
to monitor the water heater tank.
NOTE: For areas or customers where internet is not available, analog Pump Station is available with analog read outs.
The analog Pump Station comprises a DC pump and check valve, Calleffi flow meter, two temperature wells with dial
thermometers, isolation valves, isolation/purge valves and connectors The Analog Pump Station delivers the same
functionality as the standard Pump Station, but does not requiring internet connection.
The electric water heater tank requires a mixing valve (tempering valve) for scald protection against high temperature
water.
The system is designed to be compatible with a standard and readily available 50 gallon electric water heater tanks.
C. GENERAL INSTALLATION REQUIREMENTS
C.1 Permits:
Installing contractor shall obtain all required permits and approvals.
C.2 Codes, Ordinances and Standards:
The installation shall conform to all federal, state and local regulations as well as all codes, ordinances and standards
governing the installation of solar water heating systems. The installing contractor shall adhere to sound building safety
and trade practices. Special consideration must be given to building code requirements for roof loading and the
penetration of structural members and fire rated assemblies.
C.3 Shading Considerations:
The collectors should be located in an area of the roof that will not be shaded for the majority of the day all year round in
order to maximize hot water production. Adjacent buildings and trees should be checked for possible winter shading. In
addition, the collector should not be shaded by any permanent obstacle between 9:00 a.m. and 3:00 p.m. on any day of
the year in order to maximize hot water production.
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C.4 Roof and Site Inspection:
Before the installation, the contractor shall inspect the condition of the roof and notify the homeowner of any existing
roof damage or necessary repairs.
C.5 Structural Considerations:
The collectors must be located in a structurally sound area of the roof. Penetrations into structural members must not
compromise the structural integrity of the structural member. All structural member penetrations must comply with
applicable codes.
The collector mounting method must be capable of maintaining the required tilt and azimuth of the collector under the
expected dead loads, wind loads and snow loads for the location.
C.6 Building Envelope:
Penetrations through the building envelope (including roof, walls or floor penetrations) must not impair the enclosure
function and must meet applicable codes and best practices.
Roof penetrations whether for structural mounts or pipe penetrations must be sealed and leak proofed as per applicable
codes and National Roofing Contractors Association practices.
Building penetrations must not allow vermin intrusion.
C.7 Fire-Rated Assemblies:
Penetrations through fire-rated components must not reduce the fire resistance of the assembly below code.
C.8 Building Materials:
Building materials adjacent to solar components must not be exposed to elevated temperatures.
C.9 Confirmation of Installation Site:
The homeowner and contractor shall confirm the location of all roof and ground mounted components in advance of the
installation.
C.10 Fluid Identity and Toxicity:
The Direct Connect 2 X 17 system uses potable water as a heat transfer fluid, which is directly heated in the collector.
Use of toxic heat transfer fluids is prohibited.
C.11 Maintenance and Servicing:
When installing the system, make sure that all the components are accessible and easy to reach. Provide for clear access
to the electric water heater tank, pump station, and mixing valve. Make connections with PEX connectors or other
approved connections.
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D. SYSTEM INSTALLATION REQUIREMENTS
D.1 Collector Orientation and tilt
The performance of solar water heating systems in the Northern Hemisphere is optimized when the collector is mounted
facing True South. However, performance suffers very little when the collector is oriented no more than 45° East or
West of True South.
The FPE-17 Collector can be mounted flush or slightly raised and parallel with the roof. It can also be mounted raised to
an angle of latitude plus 15 degrees to maximize winter efficiency and minimize over heat potential in summer. The
collectors may be oriented in landscape or portrait. They should be supported with Sunvelope® mounting hardware.
NOTE: The outlet of the collectors must be at the high point of the collector. Collectors are manufactured in two
configurations to accommodate installation. Specify which orientation is required when ordering.
D.2 Mounting Procedures
The collector should be mounted as close to the electric water heater tank as possible to minimize heat loss in the piping
runs.
Collector shall be mounted in landscape orientation. The PV panel may be mounted on either end or in the middle or
even away from the collector as long as the collector and the PV panel share the same orientation and tilt angle.
Differences in orientation, tilt angle or shading between the collector and the PV panel will result in sub-optimal
performance of the system.
NOTE: The collector has a top and bottom. Be sure to mount the side of the collector that has the High Temperature
Limit switch (HTL) slot, at the top.
FIGURE 2 - TYPICAL INSTALLATION
Be sure to read the plumbing procedure in Section D.3 prior to mounting the collectors.
Tilt-Up Mounting Option:
For the tilt-up installation option the collector requires a minimum of three legs connected to swivel clips at the collector
(as shown below) and bolted to feet connected to the roof.
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FIGURE 3 - COLLECTOR TOP
The legs are 1.5” square aluminum tube with holes at the bottom which are connected to the channel feet with a 2” long
¼ -20 bolt. At the top of the square tube use one of the 10” long aluminum channels over the square tube to adjust the
length so the collector is evenly mounted at the proper angle. Slide the channel over the 1.5” square tube, on the end of
the square tube without a hole. The back feet can be moved closer or back from the bottom feet to adjust the collector to
the desired angle. The square tube legs can also be shortened if necessary. Sunvelope® recommends latitude plus 15
degrees from horizontal to maximize hot water production. Once the desired angle is achieved, use self-drilling screws
to attach the channel to the leg.
FIGURE 4A - SWIVEL CLIP FIGURE 4B - LEG WITH FOOT
Three feet connect to swivel clips at the bottom of the collector and attach to the roof. The most important structural
consideration is to securely anchor the collector and the Sunvelope® mounting hardware to the structural members of
the roof with an approved roof attachment method. Roof connections can usually be made at the roof trusses by sliding
the connector clips to align correctly. More connectors and legs may be used in high wind or snow load areas. If it is
not possible to align with trusses you must attach to blocking under the roof sheet. 5/16” lag screws are recommended
long enough to allow 2 ½” engagement into roof member. Engineering may be required for lag screw requirements.
Consult a Structural Engineer and or building department about loading and local codes and requirements.
If the region is subject to hurricane conditions, additional steps may be required to secure the collector and mounting
hardware to the structural members. In certain areas of the country, local building codes may require collector wind load
testing or prescribe specific mounting procedures. Consult your local building department.
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The collector should be raised from the roof surface to allow for rainwater and debris to pass under the collectors and for
proper ventilation of the roofing material. There should be at least 1 ½” of clearance between the roof surface and the
bottom of the solar collectors. Local codes may require greater clearance.
Preserving the integrity of the roof membrane is the most important roofing consideration. Ensure that all roof
penetrations required to plumb and mount the solar collector are properly flashed and sealed in accordance with best
roofing practices.
FIGURE 5A – ROOF ATTACHMENT (FRONT) FIGURE 5B – FLAT MOUNT FEET
BEST PRACTICE – Mounting
Snap a line at the location where you want the bottom of the collectors. You must stay 3’ above the lower edge of the
roof. Using lag screws, screw the channel feet to the roof in line with each other to provide the support at the bottom of
the collectors.
The feet at the ends of the collector should be 6” to 12” from the end of the collector at each end. The PV panel may be
mounted between the two collectors or in any alternative location as long as it shares the exact solar resource. Pre drill
and use silicone seal under the feet to seal the lag screws from leaking.
Once the front (bottom) feet are mounted, determine the spacing between the feet at the bottom of the collector and the
feet at the bottom of the legs. The best way to determine this is to attach the bottom of the collectors to the front feet
with the ¼-20 bolts provided.
Note: Be sure that the bottom fitting in the back of the collector is connected with a ½” brass 90° fitting on the stub in
the back of the collector before mounting the collector.
Place one of the 10” channels over the square tube leg with 3” minimum overlap. Then use one of the legs with the 10”
end channel at the top of the leg but not attached yet and lift the collector to the desired angle and hold the leg from the
top of the collector to the roof. Mark the location of the back foot and snap a line parallel to the bottom of the collector.
Screw all the back legs to the roof using silicone seal under the foot to seal the lag screws. Lag screws must penetrate a
strut or a blocking.
Now you can finish mounting the collector. Hold the collector at the desired angle and with the bottom of the square
tube held in place with a 1/4-20 bolt, and a top clip in place on the collector frame; you can slide the channel up or down
the leg to adjust the angle exactly. Then repeat with the other legs being careful to align the collector top at the same
angle on both ends. Make final attachment from the channel to 11/2 inch square tube with self-drilling screws.
Flat Mounting Option: Use four "Flat Mount Feet" per collector (see figure 5-B) where they can connect to roof
trusses. Start 6" to 12" from ends and maintain maximum span of 4' between feet. Plumbing connections can be made
underneath the collector but on top of the roof for appearance.
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D.3 Collector Loop Plumbing
The collector loop must be plumbed using ¾” PEX tubing, rated for potable water, and lead free brass, bronze or
stainless steel fittings. Use of galvanized steel, CPVC or PVC is prohibited. Pre-insulated ¾” PEX tubing, insulated with
¾” wall closed cell insulation tubing with a R value of 2.6 Btu/hr-ft2 °F or greater, can be supplied by Sunvelope®. This
optional material is cost effective and significantly reduces installation time. If using PEX, use type PEX rated for
potable water. Alternatively, 1/2" corrugated stainless steel coil with 3/4" EPDM insulation and control wire (as
manufactured by Falcon Stainless) can be used in lieu of PEX tubing in locations with occasional freeze exposure and
minimum temperatures above 25 degrees F (- 4 degrees C).
The inlet (return) and outlet (supply) fittings are on opposite corners of the collector. If the collector is mounted
landscape, and if the outlet is on the right at the top from the back of the collector, it is a right hand collector, and vice
versa. It is desirable to use opposite collectors
If the collector is mounted parallel to the slope of the roof or at an angle other than horizontal, the outlet MUST be at the
high point of the collector.
Both the plumbing fittings are located in the back of the collectors and are male adapters. The best practice is to use a
½” brass elbow threaded onto the male adapter at the bottom of the collector. Screw a male PEX adapter into the elbow.
Sunvelope® recommends using 5 wraps of Teflon tape on the male threads. The elbow with the PEX adapter should
point toward the opposite end of the collector. Thread the elbow on the lower fitting before mounting the collector.
Once the elbow is in place, attach the mounting clips into the feet and secure with the ¼”-20 bolts and nuts provided.
At the top of the collector, screw the female NPT fitting which is attached to the 3’ corrugated stainless tubing supplied,
onto the ½” male adapter on the collector outlet. This is the hot side or return side, and can be connected after the
collector is fully mounted.
Connect the pressure relief valve to the return side of the collector loop, between the corrugated stainless tubing and the
PEX at the transfer connection. Set pressure setting at 100 PSIG. Sunvelope® provides pre-assembled corrugated
stainless tubing pigtails with a ½” female connector at one end and the pressure relief valve at the other end. The female
end screws onto the male fitting at the outlet of the collector. Use ½” male pipe to PEX adapter to connect to the brass
cross with the pressure relief valve and to the Pump Station.
All vertical piping between the backup tank and the collector shall be supported at each story or at maximum intervals of
ten feet (10’). Hangers and supports can be used to prevent sagging of the piping. Hangers must be installed in a manner
that do not damage or inhibit insulation. Although the Direct Connect 2 X 17 system does not require any slope for
drainage since the system is pressurized (does not rely on drainage for normal operation), the best practice is to slope for
drainage to allow the system to be easily emptied for service. Do not use any couplings or connectors inside attic space
to minimize potential damage from a leak. The system utilizes domestic water pressure to fill and purge the system.
The installation of all horizontal and vertical piping must not reduce the performance or rating of any structural member
or fire rated assembly. Adhere to all applicable local codes and ordinances.
D.4 Pipe Insulation
WARNING: HOT PIPES MAY CAUSE BURNS IF TOUCHED. ENSURE THAT ALL PIPES AND FITTINGS
ACCESSIBLE TO THE PUBLIC ARE WELL INSULATED. COMPONENTS ACCESSIBLE TO PUBLIC
TRAFFIC MUST BE KEPT BELOW 140ºF OR CLEARLY LABELED WITH AN APPROPRIATE
WARNING.
The collector loop piping, plus any interconnecting hot water piping shall be well insulated with a high quality flexible
closed cell insulation to minimize heat loss. In addition, the final 5 feet of metallic cold water supply pipe leading to the
system, or the length of piping which is accessible if less than 5 feet, shall also be insulated. The insulation shall have a
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maximum operating temperature of 220°F or higher and a minimum thermal resistance of R-2.6. The wall thickness of
the pipe insulation should be ½” or thicker. A 1” wall thickness is required for exposed piping in all areas prone to
annual hard freeze conditions. When it comes to pipe insulation the rule is simple: thicker is better.
To the extent possible, slide the insulation material over the pipe without cutting or taping. All butt joints must be sealed
with contact adhesive. The use of rigid polyethylene pipe insulation is prohibited. The temperatures generated by the
collector in the summer months or under static conditions can melt this type of material.
Any above ground exterior pipe insulation shall be protected from UV degradation and moisture damage. Use EPDM
UV resistant insulation (available from Sunvelope®) above the roof or a UV protectant wrap such as “Venture Clad”.
D.5 PV Panel Mounting and Wiring
Mount the supplied PV panel between the collectors. maintaining the same orientation and tilt angel as the collectors.
The side shields must be vertical as shown in Figure 2. Placing the PV panel between the collectors is attractive and
provides enough spacing to insure alignment with roof trusses. Use self drilling screws to mount the side shields to
collectors.
Connect the PV panel to the High Temperature Limit switch (HTL) provided and installed at the factory. The wires at
the high limit switch are marked “to Pump Station”. Connect the high limit switch to the thermistor. Always connect
colors red to red and black to black wires. Install the thermistor connected to the HTL switch on the back on the
collector, in the slot provided. The low voltage wiring used to connect the PV panel to the Pump Station shall be a
minimum18 AWG. The wiring should be two conductor, PVC insulated, with a PVC UV rated jacket suitable for
exterior use. See note 3 in Figure 7. Sunvelope® can supply pre-insulated and wired PEX tubing.
NOTE: Do not connect the PV panel wires to the DC Pump in the Pump Station until the system is fully charged and
purged of air.
D.6 Pump Station
Mount the Pump Station in the orientation shown in figure 6, on a wall near or in the electric water heater tank and in an
accessible location. Preferably mount to a stud but if one isn’t available use adequate sheet rock mounting to support the
weight. Looking at the Pump Station the left hand fittings are the supply side to the collectors and the right side fittings
are the return side from the collectors. See the markings on the label. All 4 ball valves and the two purge/drain valves
should be in the closed position.
Route the PEX tubing from the corrugated stainless tubing pig tail to the Pump Station. Connect one end to the
corrugated stainless tubing and the other end to the top return outlet of the Pump Station as marked.
Route the tubing from the bottom of the collector at the elbow to the pump side of the Pump Station as marked. Connect
to the PEX or other tubing connector at the bottom of the collector and to the pump side at the top of the Pump Station as
marked.
Connect PEX or other tubing from the ¾” brass tee fitting at the bottom of the tank at the drain valve to the bottom
pump side of the Pump Station.
Then connect the return side of the Pump Station at the bottom of the Pump Station to the ¾” brass tee fitting at the T
and P valve.
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FIGURE 6
PUMP STATION
SUPPLY
RETURN
T Flow Purge Valve
T Flow Purge Valve
Thermo Well Tee
Back Flow Preventer
Flow Sensor
Variable Speed DC Pump
Thermo Well Tee
Ball Valve
Ball Valve
¾” PEX to Tank Bottom
¾” PEX to Tank at T&P Valve
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D.7 Electric Water Heater Tank
When installing the electric water heater tank make sure that all the components are accessible and easy to reach. Ensure
that there is clear access to the tank, pump station, mixing valve and expansion tank. Use only brass nipples and unions
and copper and brass fittings in plumbing water heater tank and expansion tank. The use of galvanized fittings or
nipples, CPVC or PVC piping is prohibited.
Use standard connections to the city cold water supply line and the home hot water feed lines.
The 3/4” cold water supply line to the water heater tank shall be insulated with R-2.6 or greater pipe insulation to a
minimum distance of 5’ behind the storage tank, or to the wall if closer than 5’.
A boiler drain must be installed at the lowest point in the system to serve as a drain valve for manual draining, tank
flushing, and maintenance.
A brass shut-off isolation valve, allowing isolation from water supply to the electric water heater, must be installed in the
cold water supply line, ahead of the electric water heater and expansion tank connection.
A high quality thermostatic mixing valve is a required component in all OG-300 certified systems and should be
plumbed in line with brass union connections for ease of future repair or replacement. The mixing valve shall be
standard ASSE 1017 approved. The specified mixing valve should have an operating range between 95°F and at least
120°F. The mixing valve shall include a set point of 120°F delivered water temperature.
WARNING: SCALDING CAN OCCUR WITHIN FIVE SECONDS WHEN WATER TEMPERATURES
APPROACH 140° F. DESPITE THE INSTALLATION OF A MIXING VALVE, ALWAYS EXERCISE
CAUTION WHEN OPENING A HOT WATER FIXTURE OR FAUCET IN YOUR HOME.
To maximize solar heat capture from your Direct Connect 2 X 17 system, Sunvelope® recommends disconnecting the
bottom water heating element. To disconnect bottom heating element of the electric water heater tank, shut off power to
the water heater. Remove the access covers over the heating elements. Fold insulation outwards, or if the insulation is
plastic foam, just remove the insulating block and set it aside. Remove the plastic thermostat cover found under this
insulation that protects the thermostat electrical connectors from touching the water heater thermostat cover, and then
disconnect the electrical wires connected to the water heater element. Insulate the electrical wires with wire nuts.
All electric water heater tanks used with this system must have a minimum of R12 external insulation. An exterior
insulation blanket may be used to satisfy this requirement.
D.8 Expansion Tank
The expansion tank is used to accept expansion of the potable water as it heats, preventing a pressure increase and
subsequent dumping from the pressure relief valve. For the Direct Connect 2 X 17 installation, a 3.2 gallon expansion
tank is specified as suitable capacity. Use only high temperature expansion tanks rated up to 200°F.
The expansion tank should be pre-charged to 45 psi.
Connect the expansion tank to the cold water supply line, between the water heater isolation valve and the water heater.
Use only “drinking water safe” copper, brass, or PEX fittings and piping in plumbing the expansion tank. The use of
Teflon tape on the threaded fittings is recommended.
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D.9 Electrical Requirements
The DC pump inside the pump station is powered by a 10 watt PV panel, which is mounted in an unshaded area outside
at the same orientation and tilt angle as the collector. No other power source is required to operate the water heating
portion of the Sunvelope® system.
The Energy Heat Meter included in the Pump Station to capture temperature and flow data does require an electrical
outlet within 6ft of the Pump Station.
E. SYSTEM START UP PROCEDURE
E.1 Charging and Purging the System
Once the piping is completed, the system is ready to be charged. First connect a garden hose to the purge valve hose
connection on the Pump Station on the return side. Use a good quality hose and use extreme care; the discharged water
may be EXTREMELY HOT. Make sure the end of the hose is in a location where the discharge will not cause any
damage.
NOTE: The collector is usually super-heated and will generate steam. Be sure everyone is a safe distance from the end
of the hose.
The system is now ready to connect power from the PV panel to the DC Pump in the Pump Station. Leave the ball valve
on the return side of the Pump Station closed and open the purge valve to the hose. Open the ball valve on the supply
side of the top of the Pump Station and leave the purge valve closed. Then slowly open the ball valve from the tank at
the bottom of the Pump Station supply side through the pump and to the collector until the flow is full. Leave the flow
full until the system is purged. You can tell when the system is fully purged when the return temperature cools to
around 100 degrees F and you hear no air bubbles or steam. Then open the valve from the top of the tank to the Pump
Station while leaving the purge valve open for a second or so. Close the purge valve and examine the entire system for
leaks. All 4 ball valves should be fully open and the purge valves should be closed and the caps screwed in place.
The system is now ready to connect to the DC power from the PV panel and HTL.
F. SYSTEM OPERATION
Once the Direct Connect 2 X 17 system is properly installed and connected, the DC pump in the Pump Station will
automatically modulate its speed to match the available solar irradiance, which in turn will control the flow rate thru the
solar collector and the amount of heat produced by the system. The heat collected by the solar hot water system will be
used to heat the water going to the electric water heater tank, reducing or eliminating the need for the electric water
heater to turn on.
The Pump Station’s integrated monitoring incorporates four system status LEDs. The yellow LED indicates flow; this is
only lit when the system detects flow though the Pump Station. The red LED indicates that the monitoring system is
ON. The green LED reports that all temperature probes are reporting. Lastly, the blue LED indicates a link between the
monitor and the AMBR edge router.
To determine whether the solar hot water system is working, go into the Energy Dashboard of the monitoring solution;
compare the Supply Temperature with the Return when the solar loop pump is running. The Return temperature from the
collector on a sunny day should be at least 4° F warmer than the Supply temperature going up to the collector.
In order to utilize the electric water heater as a backup to the solar hot water system, leave the circuit breaker on to the
electric water heater tank and set the tank thermostat to the lowest acceptable temperature setting. The electric resistance
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heating element will come on only when the tank temperature falls below the thermostatic set point. If the solar heated
water entering the tank is warmer than the thermostatic set point, the electric heating element will not come on.
G. SHUTDOWN PROCEDURES
The Direct Connect 2 X 17 solar water heating system is designed so that the key components can be isolated for
emergency repairs or routine maintenance. By shutting the shut off valve installed in the incoming water line (Figure 7),
the entire system can be isolated from the cold water supply line. In the case of a leak immediately shut this valve and
call your installation contractor for service.
The collector loop can be quickly drained if a leak is detected or for routine maintenance. First, disconnect the DC power
pump in the Pump Station from its DC power source. Next, close both ball valves (supply and return) in the bottom of
the Pump Station to isolate the collectors loop. Then attach a hose to the T Flow Purge Valve on the return side of the
Pump Station. Use a good quality hose and use extreme care. Make sure the end of the hose is in a location where the
discharge will not cause any damage. Open the valve to drain the system.
NOTE: The collector is usually super-heated and will generate steam. Be sure no one is in range of the end of the hose.
CAUTION: THIS WATER MAY BE EXTREMELY HOT!
H. SUMMER VACATION PROCEDURES
Solar water heating systems can build up very high temperatures during summer months if there is no periodic draw on
the system. The Sunvelope Direct Connect 2 X 17 system has excellent over temperature protection features so it is
recommended to simply close the shut-off valve in the cold water supply of the electric water heater tank and allow the
system to operate normally. When user returns, just open the valve to the tank.
If for any reason the user desires to drain the collector loop the pump should be disconnected. The two top ball valves
with purge/drain valves should be closed. Hoses should be connected to the two purge valves, either simultaneously or
one at a time, and the purge valves opened to release the water in the loop. Once the water is fully drained the purge
valves may be close again. To recharge the system, follow the instructions in Section E-1, Charging and Purging the
system.
I. MAINTENANCE AND TROUBLESHOOTING
The following simple procedures are intended to optimize the performance of the Direct Connect 2 X 17 system and also
to extend the life of the primary components:
I.1 Electric Water Heater Tank Flush
The electric water heater tank should be flushed annually to minimize sediment buildup on the bottom of the tank. If you
live in an area with high mineral content in your water, flush the tank on a semi-annual basis. Open the drain valve on
the bottom of the water heater tank and flush a sufficient volume of water to eliminate the sediment. It is also possible to
flush the entire system including the collector by connecting a hose to the purge valve at the return side of the Pump
Station. Close the ball valve and purge there.
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I.2 Electric Water Heater Tank Anode Rod Replacement
Typically constructed from magnesium, anode rods are installed in “glass lined” electric water heaters to inhibit
corrosion. The anode rod is consumed so that the tank lining is not. By changing the anode rod after the fifth year of
system operation, and every three to five years thereafter, it is possible to extend the life of the electric water heater tank.
Periodic replacement of the anode rod in the backup water heater tank can significantly extend the tank life. System
temperatures and water quality affect the rate at which the anode rod is consumed. In general: the higher the average
system temperature the faster the rate of corrosion.
I.3 Collector Glass Cleaning
If you live in a dusty climate it is beneficial but not necessary to wash off the dirt that settles on the collector glass once
every two months. Normal rain and snow is usually sufficient to maintain collector reasonably clean. Clean glass allows
the collector to maintain a high level of thermal performance.
I.3 Pipe Insulation Maintenance
Check the exterior pipe insulation annually and patch or repair any exposed surfaces or degraded areas. Repair as
necessary with manufacturer’s recommended jacket or coating or a high quality exterior latex paint.
I.4 System Leaks
If you detect a water leak in the solar loop piping or in the water heater tank, follow the Shutdown Procedures in Section
G, and contact your installation contractor for additional troubleshooting and repair support.
I.5 Pump Failure
Use the flow meter in your monitoring system or check the analog flow meter when the sun is shining directly on the PV
panel (no shading). If you are not getting hot water and the flow reading is zero, the pump may not be operating and
may need to be replaced. Contact your installation contractor for service.
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J. DIRECT CONNECT 2 X 17 SYSTEM COMPONENT PARTS
Figure 7 below depicts the key components of the Direct Connect 2 X 17 system:
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Number in Figure #7
Component Manufacturer Catalog # Quantity
1 Solar Collector Sunvelope® FPE-30 1
2 Pump Station Sunvelope® SPA-15 1
3 Electric Water Heater Tank, 50 gallons
Rheem or comparable XE40M06ST45U1 1
4 Expansion Tank, 3.2 gallons Amtrol ST-8 1
5 PV 10W panel Dasol DS-A18-10 1
6 High Temperature Limit Switch (HTL) and thermistor
Wangwanqui 261247778904 1
7 Solar loop piping - PEX tubing encased in ½" PEX-foam insulation
Uponor, NIPCO, EverPEX or equal
F6040750, NP60/70, 64766
varies
8 Pressure Relief Valve Watts 530C 1
9 Shutoff Ball Valve Webstone Ball valve 1
10 Boiler flush valve Included as part of Electric Water Heater
N/A 1
11 Mixing Valve Honeywell-Sparco AM100C-UT-1LF 1
12 Temperature and Pressure Relief Valve
Included as part of Electric Water Heater
N/A
K. SYSTEM OPERATING PARAMETERS
K.1 Collector Loop Pressure
The pressure in the solar collector loop should be within 0 – 80 PSIG.
K.2 Collector Loop Temperature
The temperature in the collector loop should not exceed 170 degrees F.
K.3 Circulation Flow Rate
The flow rate in the collector loop should be 0.5 – 2 GPM while the pump is operating (clear days from 9AM to 6 PM).
K.4 FPE-30 Collector’s Dry and Fill Weights
Dry Weight: 141 lbs.
Fill Weight: 145 lbs.
K.5 Tank Temperature and Pressure
Refer to tank manufacturer’s specification label for tank maximum working temperature and pressure.
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APPENDIX A
DIRECT CONNECT 2 X 17 OG-300 APPROVED COMPONENTS
Primary Components Manufacturer Model Number
Solar Collector Sunvelope® FPE-30
Collector Mounting Hardware Sunvelope® LS-30
Electric Water Heater -50 gallon Rheem XE50M06ST45U1
Whirlpool E1F50RD045V
AO Smith ENT-50
Pump Station (including PV panel,
HTL switch and DC pump)
Sunvelope® SPA 15
Expansion Tank Amtrol ST-8
Other Components Description
Thermostatic Mixing Valve The thermostatic mixing valve shall have a bronze, brass or stainless steel
body with a rated maximum working temperature no less than 200oF and a
rated maximum working pressure no less than 125psi. The range of
temperature set points shall be at least 18ºF (10ºC) and shall include a set
point of 120ºF (50ºC). The Thermostatic Mixing valve shall be third party
listed and certified to one of the following ASSE standards: ASSE 1016;
ASSE 1017; ASSE 1070.
Ball Valves Ball valves shall be of bronze, brass or stainless steel construction.
Maximum working temperature shall be no less than 200oF and maximum
working pressure shall be no less than 125 psi.
Boiler Drains Boiler Drains shall be of bronze, brass or stainless steel construction.
Maximum working temperature shall be no less than 200oF and maximum
working pressure shall be no less than 125 psi.
Pressure Relief Valve
The pressure relief valve shall be of bronze, brass or stainless steel
construction with a pressure setting between 30psi and 100psi. The pressure
relief valve shall be set to discharge at a pressure below the maximum design
pressure of all other components in the collector loop.
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APPENDIX B
DIRECT CONNECT 2 X 17 SYSTEM & COMPONENTS LABELS
FLUID IDENTIFICATION THE HEAT TRANSFER FLUID USED IN THIS SYSTEM IS WATER. NO OTHER FLUID SHALL BE USED THAT
WOULD CHANGE THE ORIGINAL CLASSIFICATION OF THIS SYSTEM. BE EXTREMELY CARFUL WHEN
DRAINING THIS FLUID. IT MAY BE DISCHARGED AT A VERY HIGH TEMPERATURE AND PRESSURE.
FREEZE LABEL THE DIRECT CONNECT 2 X 17 SYSTEM IS PROTECTED FROM FREEZING BY THE INHERENT DESIGN OF THE
SOLAR COLLECTOR. WHEN PROPERLY INSTALLED AND OPERATED THE SYSTEM IS PROTECTED TO
TEMPERATURES AS LOW AS -40 DEGREES F.
BOILER FLUSH VALVE (COMPONENT #9) – WATER HEATER TANK DRAIN VALVE VALVE 11 IS NORMALLY CLOSED. WHEN OPENED IT IS USED TO DRAIN THE WATER HEATER TANK. BE
EXTREMELY CARFUL WHEN DRAINING THIS FLUID. IT MAY BE DISCHARGED AT A VERY HIGH
TEMPERATURE AND/OR PRESSURE.
PUMP STATION’S T FLOW PURGE VALVE (RETURN SIDE) VALVE IS NORMALLY CLOSED. WHEN OPENED, IT IS USED TO CHARGE AND DRAIN THE SOLAR
COLLECTOR LOOP PIPING. THE HEAT TRANSFER FLUID USED IN THIS SYSTEM IS WATER. NO OTHER FLUID
SHALL BE USED THAT WOULD CHANGE THE ORIGINAL CLASSIFICATION OF THIS SYSTEM.
UNAUTHORIZED ALTERATIONS TO THIS SYSTEM COULD RESULT IN A HAZARDOUS HEALTH CONDITION.
BE EXTREMELY CAREFUL WHEN DRAINING/PURGING THIS FLUID. IT MAY BE DISCHARGED AT A
VERY HIGH TEMPERATURE AND/OR PRESSURE.
SHUTOFF SUPPLY ISOLATION VALVE (COMPONENT #8) THIS VALVE IS NORMALLY OPEN AND ALLOWS POTABLE WATER TO FILL THE WATER HEATER TANK.
WHEN CLOSED THE SOLAR STORATANK IS ISOLATED FROM THE PRESSURIZED CITY COLD WATER
SUPPLY LINE PIPING.
PRESSURE RELIEF VALVE (COMPONENT #11)
THE PRV WILL AUTOMATICALLY OPEN AND DISCHARGE FLUID OR AIR IN THE EVENT OF THE
COLLECTOR LOOP PRESSURE EXCEEDING THE MAXIMUM WORKING PRESSURE OF THE SYSTEM.
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APPENDIX C
FPE SERIES COLLECTOR PRODUCT WARRANTY
1. GENERAL: The patented Sunvelope®
Solar FPE Series Collectors are warranted to be free from defects
in parts and workmanship under normal use and service including freezing.
2. THE EFFECTIVE DATE: The effective date is the completion date of original installation if properly
documented; or the date on the building permit for installation of your Collector plus thirty (30) days.
Installation of a collector without a building permit voids warranty.
3. APPLICABLE WARRANTY PERIOD: Subject to proof of purchase of your collector, the
Applicable Warranty period is ten (10) years from the Effective date.
4. EXCLUSIONS: This Warranty will not apply:
To damage from abuse, accident, fire, flood, wind or other event beyond control of the manufacturer;
To defects or damage caused by the use of any component, attachment, or device not authorized in writing
by Sunvelope®
Solar, Inc.;
To a collector which has been moved from its’ original installation location;
To a collector that has been modified in any way;
To damage caused by negligence or vandalism;
To Collectors with structural attachments not authorized by the manufacturer;
5. LABOR, SHIPPING AND PROCESSING COSTS: This Limited Warranty does not cover any labor
expenses for service, repairs, reinstallation, permits, or removal and disposal of defective component part(s).
All such expenses are the responsibility of the Customer. This limited Warranty does not extend to any shipping
cost, transportation cost, or delivery expenses.
6. HOW TO MAKE A CLAIM: To obtain Warranty Service, contact Sunvelope®
Solar Inc. The ORIGINAL
DATED RECEIPT OR OTHER PROOF OF PURCHASE AND DATE OF INSTALLATION, accompanied
by the model and serial numbers are required. Please be prepared to provide proof that the Collector meets the
Limited Warranty requirements.
7. EXCLUSIVE WARRANTY – LIMIT OF LIABILITY: This Limited Warranty is the only Warranty for
products provided by Sunvelope®
Solar, Inc. No outside parties are authorized to make any warranties for or
on behalf of Sunvelope®
Solar, Inc. ANY IMPLIED WARRANTIES, INCLUDING MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, SHALL NOT EXTEND BEYOND THE APPLICABLE WARRANTY PERIODS SPECIFIED PREVIOUSLY. THE DEALER’S SOLE LIABILIY, WITH RESPECT TO ANY DEFECT, SHALL BE SET FORTH IN THIS LIMITED WARRANTY, AND ANY CLAIMS FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES (INCLUDING DAMAGE FROM WATER LEAKAGE) ARE EXCLUDED. THERE ARE NO WARRANTIES WHICH EXTEND BEYOND THE DESDRIPTION ON THE FACE HERE OF. Some states do not allow limitations on how long an implied warranty lasts, or for exclusion of incidental or consequential damages so the above limitations or exclusions may not apply to you.
8. This limited warranty gives you specific legal rights, and you may also have other rights, which vary from
state to state.
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