28 Aug 2018 - To try out using double boiler! See more ideas about Food recipes, Food and Double boiler. Ideal Classic Boiler User Instructions View and Download Ideal Boilers Classic LXRS 230 installation and service manual online. Ideal Classic Wall Hung, balanced flue, gas fired boiler. View and Download Ideal ES26 user manual online. Logic Code combi. Boiler IDEAL Classic Slimline FF 230 Installation & Servicing Manual. 4) Do not install this boiler in a location where gasoline or other flammable vapors or liquids will be stored or used. Do not install this boiler in an area where large amounts of airborne dust will be present, such as a workshop. 5) The boiler should be located as close to the chimney as possible. OPERATING AND INSTALLATION INSTRUCTIONS Models 992-2342 Type H, W, & P. Refer to the user™s information manual provided with this boiler. Installation and service must be performed by a qualified installer, service agency or the gas supplier. Boiler Pressure Vessel Code and bears the ASME stamp. This boiler complies with the latest.
- Khind Double Boiler Db601
- Khind Double Boiler Db601 Manual
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Khind Anshin Double Boiler White Free 4 Ceramic Pots Khind DB601 The BEST COOKING METHOD, that retains Original Taste, retains Original Flavour, passed down through the centuries. Fully automated with Pre Set Menus for easy preparation of delicacies, soups, herbal tonics.
9
14)Vent damper installation is mandatory on all sizes from the BSI069 to BSI276. The BSI310 through BSI379 may be ordered
with or without vent damper. If supplied, install vent damper (see Figure 9) as follows:
a)Open vent damper carton and remove installation instructions. Read the instructions thoroughly before proceeding.
Verify that vent damper is same size as draft diverter outlet. See Figure 1. Unpack vent damper carefully. Do not force
closed damper blade. Forcing vent damper closed may result in damaged gear train and void warranty.
b)Vent damper is factory shipped having approximately ¾” diameter hole in the vent damper blade, which must be left
open for boilers equipped with standing pilot, and should be plugged on boilers with an intermittent pilot system,
Mount the vent damper on the flue collar without modification to either and secure with sheet metal screws. Make
sure screws do not interfere with damper blade operation. Vent damper blade position indicator must be visible to
c)The damper wire harness is shipped wired into the boiler junction box. Plug the loose end of this harness into the
damper and secure the flexible conduit to the damper using a connector nut provided.
d)Install vent connector pipe and vent fittings from vent damper outlet to chimney or gas vent. Secure with sheet metal
Removing an Existing Boiler from a Common Chimney
In some cases, when an existing boiler is removed from a common chimney, the common venting system may be too large for
the remaining appliances. At the time of removal of an existing boiler the following steps shall be followed with each appliance
remaining connected to the common venting system placed in operation, while the other appliances remaining connected to
a)Seal any unused opening in the common venting system.
b)Visually inspect the venting system for proper size and horizontal pitch and determine there is no blockage or
restriction, leakage, corrosion and other deficiencies which could cause an unsafe condition.
c)Insofar as practical, close all building doors and windows and all doors between the space in which all the appliances
remaining connected to the common venting system are located and other spaces of the building. Turn on clothes
dryers and any appliance not connected to the common venting system. Turn on any exhaust fans, such as range
hoods and bathroom exhausts, so they will operate at maximum speed. Do not operate a summer exhaust fan. Close
d)Place in operation the appliance being inspected. Follow the lighting instructions. Adjust thermostat so the appliance
e)Test for spillage at the draft hood relief opening after five (5) minutes of main burner operation. Use the flame of a
match or candle, or smoke from a cigarette, cigar, or pipe.
f)After it has been determined that each appliance remaining connected to the common venting system properly vents
when tested as outlined above, return doors, windows, exhaust fans, fireplace dampers and any other gas-burning
g)Any improper operation of the common venting system should be corrected so the installation conforms with the
National Fuel Gas Code, ANSI Z223.1. When resizing any portion of the common venting system, the common
venting system should be resized to approach the minimum size as determined using the appropriate tables in the
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Copyright © D 261 - 0
3/09
7 of 20
Fancoil (3)
A fancoil terminal unit or air handling unit (AHU) consists of a hydronic heating coil and
either a fan or blower. Air is forced across the coil at a constant velocity by the fan or
blower, and is then delivered into the building space.
Default values: BOIL DSGN = 190
either a fan or blower. Air is forced across the coil at a constant velocity by the fan or
blower, and is then delivered into the building space.
Default values: BOIL DSGN = 190
°F (88°C), BOIL MAX = 210°F (99°C),
BOIL MIN = 140
°F (60°C)
Fin–tube Convector (4)
A convector terminal unit is made up of a heating element with fins on it. This type of
terminal unit relies on the natural convection of air across the heating element to deliver
heated air into the space. The amount of natural convection to the space is dependant
on the supply water temperature to the heating element and the room air temperature.
Default values: BOIL DSGN = 180
terminal unit relies on the natural convection of air across the heating element to deliver
heated air into the space. The amount of natural convection to the space is dependant
on the supply water temperature to the heating element and the room air temperature.
Default values: BOIL DSGN = 180
°F (82°C), BOIL MAX = 200°F (93°C),
BOIL MIN = 140
°F (60°C)
Radiator (5)
A radiator terminal unit has a large heated surface that is exposed to the room. A radiator
provides heat to the room through radiant heat transfer and natural convection.
Default values: BOIL DSGN = 160
provides heat to the room through radiant heat transfer and natural convection.
Default values: BOIL DSGN = 160
°F (71°C), BOIL MAX = 180°F (82°C),
BOIL MIN = 140
°F (60°C)
Baseboard (6)
A baseboard terminal unit is similar to a radiator, but has a low profile and is installed at
the base of the wall. The proportion of heat transferred by radiation from a baseboard is
greater than that from a fin-tube convector.
Default values: BOIL DSGN = 150
the base of the wall. The proportion of heat transferred by radiation from a baseboard is
greater than that from a fin-tube convector.
Default values: BOIL DSGN = 150
°F (66°C), BOIL MAX = 170°F (77°C),
BOIL MIN = 140
°F (60°C)
Section B3: Advanced
BOILER INDOOR (BOIL INDR)
The BOIL INDR is the room temperature used in the original heat loss calculations for the building. This setting establishes the
beginning of the
beginning of the
Characterized Heating Curve for the boiler zones.
BOILER DESIGN (BOIL DSGN)
The BOIL DSGN temperature is the supply water temperature required to heat the boiler zones when the outdoor air temperature is as
cold as the OUTDR DSGN temperature.
cold as the OUTDR DSGN temperature.
BOILER MAXIMUM (BOIL MAX)
The BOIL MAX is the highest water temperature that the control is allowed
to calculate as the BOIL TARGET temperature. If the control does target
the BOIL MAX setting, and the BOIL temperature is near the BOIL MAX
temperature, the MAX segment will be displayed in the LCD while either
the BOIL TARGET temperature or the BOIL temperature is being viewed.
At no time does the control operate the boiler above 248
to calculate as the BOIL TARGET temperature. If the control does target
the BOIL MAX setting, and the BOIL temperature is near the BOIL MAX
temperature, the MAX segment will be displayed in the LCD while either
the BOIL TARGET temperature or the BOIL temperature is being viewed.
At no time does the control operate the boiler above 248
°F (120°C).
BOILER MINIMUM (BOIL MIN)
The BOIL MIN is the lowest water temperature that the control is allowed
to use as the BOIL TARGET temperature. During mild conditions, if the
261 calculates a BOIL TARGET temperature that is below the BOIL
MIN setting, the BOIL TARGET temperature is adjusted to at least the
BOIL MIN setting. During this condition, if the boiler is operating, the
MIN segment turns on in the LCD while the BOIL TARGET or BOIL
temperature is being viewed. If the installed boiler is designed for low
temperature operation, set the BOIL MIN adjustment to OFF.
to use as the BOIL TARGET temperature. During mild conditions, if the
261 calculates a BOIL TARGET temperature that is below the BOIL
MIN setting, the BOIL TARGET temperature is adjusted to at least the
BOIL MIN setting. During this condition, if the boiler is operating, the
MIN segment turns on in the LCD while the BOIL TARGET or BOIL
temperature is being viewed. If the installed boiler is designed for low
temperature operation, set the BOIL MIN adjustment to OFF.
WWSD OCC
ROOM OCC
70
(21)
90
(32)
110
(43)
130
(54)
150
(66)
170
(77)
Khind Double Boiler Db601
190
(88)
Outdoor Air Temperature
Supply W
ater
T
emperature
210
°F
(99
°C)
-20
(-29)
0
(-18)
20
(-7)
40
(5)
60
(16)
80
°F
(27
°C)
BOIL DSGN
Khind Double Boiler Db601 Manual
BOIL MIN
WWSD UNOCC
Khind Double Boiler Db601 Recipe
BOIL INDR
OUTDR DSGN
Boiler Characterized
Heating Curve
50
(10)
ROOM UNOCC
How To Use Khind Double Boiler Db601
BOIL MAX
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