The Haze HZY - GEL range covers Ah capacities from 7Ah to 230Ah (C10) with dimensions suitable for racking systems for maximum space utilisation. Specially designed racks and cabinets are available with cables and connectors to suit. GEL is especially suited for non-premium sites with medium to frequent outage rates and non-climate controlled environments, for less extreme temperature variations and reduced cyclic demands please consult the Haze HZB - AGM range. Haze facilities are fully accredited to ISO 14001 and the management system fully accredited to ISO 9001.
UKAS
QUALITY MANAGEMENT
005
Nominal Voltage Design Life Operating Temperature Grid alloy Plates Separator Active material Case and cover Charge Voltage
Electrolyte Venting Valve
Terminal Innovative Features Designed to meet the needs of UPS and other applications where power outages are frequent and a cyclic UPS battery is required. +
Completely maintenance free, sealed
+
Construction eliminates the need for watering
+
Electrolyte will not stratify.
+
Increased durability and deep cycle ability for heavy demand applications
+
Special formation process
+
Gelled thixotropic electrolyte
+
Spill proof / leak proof
+
Valve regulated Max internal pressure 2.5 psi
+
Multi-position usage
+
Multi-cell container
+
ABS Case and cover - V0 on request
+
Low self discharge
+
Utilising the latest in European technology
+
FAA and IATA approved as non-hazardous
Torque setting Cables
6 & 12 Volts 12 Years -20 °C to 50 °C Calcium / Tin lead alloy Flat Pasted Microporous Duroplastic Very high purity lead ABS (VO on request) Float 2.27 - 2.30 VPC @20 °C ° Cycling 2.4 @20 C Max. 2.4 VPC Max ripple 3.5% Charge V Sulphuric acid Analytical grade purity EPDM Rubber 1.5 to 2 psi (10.5 - 14 KPa) release pressure. Resealing at 1 psi (7 KPa) Various types Epoxy sealed by extended mechanical paths The recommended torque value for all types is 5-7 Nm Insulated cables / connectors supplied on request.
Haze Battery Company keenly encourages environmental awareness; PLEASE follow guidelines for the recycling /disposal of lead.
Gel Vs AGM Each battery has its advantages and disadvantages, it is therefore important to choose the right battery for the application. Advantages of Gel Batteries: ! Full recovery from deep discharge, even when the battery is not recharged immediately. ! Ideal for repeat cycling daily use. ! Excellent performance over long discharges ! Good tolerance to higher temperature applications ! Suitable where mains power is unstable ! Zero stratification due to immobilized electrolyte ! Reduced self-discharge ! Limiting design protects the positive plates to greatly improve cycle life ! Improved charge acceptance due to low internal resistance ! High resistance to water loss with the right charging set up ! Ultra stable polymer separator with glass mat for increased performance ! High resistance to shorting due to superior mechanical strength of the polymer separator ! Increased tolerance to poor charging parameters ! Can be discharged even when full recharge has not been achieved, without loss of battery capacity
! !
Terminal Options (left to right) >
Lead Flag
>
Automotive
>
J Type
>
Copper Flag
>
J Type Adapter
>
Insert
Insert are made from brass w i t h c o p p e r, n i c k e l a n d silver plating giving excellent mechanical, electrical and corrosion resistant properties.
Disadvantages Reduced high rate autonomy Requires cycling to achieve full capacity
Capacity temperature correction Factor to be applied to Data at 20 Degrees C Discharge Time 5 minutes to 59 minutes 1 Hour to 100 Hours
-30 °C
-20 °C
-10 °C
0 °C
5 °C
10 °C
15 °C
20 °C
25 °C
30 °C
35 °C
40 °C
50 °C
0.23
0.417
0.605
0.778
0.86
0.91
0.96
1
1.037
1.063
1.085
1.1
1.116
0.277
0.464
0.647
0.816
0.886
0.93
0.97
1
1.028
1.05
1.063
1.07
1.078
CHARGING CHARACTERISTICS
Applications !
Float service
!
Residential
!
Telecommunications
!
Refrigeration
!
Poor charging applications
!
Frequent use applications
!
Wind
Floating - The optimum float voltage for a battery is temperature dependant, at 15 - 24oC the recommended value is 2.27 - 2.30V. It is recommended that battery installation sites are temperature controlled, however float voltage can be increased or decreased to compensate for temperature variations. Adjustment is calculated at +/- 3 mV per degree C.
Operating Temperature
Recommended Applied Float Voltage VPC
0-9
2.33 - 2.35 2.30 - 2.33
!
Engine Starting
10-14
!
Higher ambient temperature applications
15-19
2.27 - 2.30
20-24
2.27 - 2.30
!
Water Pumping
25-29
2.25 - 2.27
!
Road side cabinets
!
Cathodic Protection
Many other extreme applications
30-34
2.23 - 2.25
35-40
2.21 - 2.23
The most suitable charging method for battery life and performance is the constant voltage method with a limited initial current, usually limited to a maximum of C20/4. For cyclic use we specify a short constant current phase at the end of normal charging, consult Haze for further details.
End o f Discharge Voltage = 1.85 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
End of Discharge V oltage = 1.75 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
o
D I S C H AR G E C U R R E N T i n A 30' 6.00 9.02 10.6 6.00 10.6 14.0 24.2 31.1 40.8 47.5 51.0 62.4 63.9 68.5 82.9 96.6 108 122 133 142 161 180 102 146 148 161
D I S C H A R G E C U R R E N T in A 30' 7.02 10.0 12.0 7.02 12.0 15.4 26.7 33.8 43.9 52.5 54.7 68.6 70.7 77.1 91.2 107 118 135 149 161 186 204 111 166 168 184
End o f Discharge Voltage = 1.65 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
o
D I S C H AR G E C U R R E N T i n A 30' 6.92 9.90 11.8 6.92 11.8 15.1 26.3 33.5 43.4 51.7 54.1 68.0 69.6 75.6 90.0 105 117 133 146 159 182 201 109 163 165 181
20 - 25 C 8 hr -
10 hr 12 hr 20 hr -
End of Discharg e Voltage = 1.60 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
IMPORTANT NOTE: GEL batteries do not deliver full capacity on the first cycle, in fact they take approx. 15 to 20 cycles to reach full capacity. This reduced initial capacity effect is due to the extremely durable crystal structure employed in the Haze GEL range.The capacity quoted in this catalogue is full capacity.
End o f Discharge Voltage = 1.85 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
D I S C H A R G E IN W A T T S P E R C E L L 30' 11.9 18.1 21.7 11.9 21.7 29.8 47.9 60.9 79.7 95.2 115 125 127 140 172 193 218 240 267 289 340 360 200 305 307 327
10 hr 12 hr 20 hr -
20 - 25 oC
D I S C H A R G E IN W A T T S P E R C E L L
End o f Discharge Voltage = 1.75 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
2 0 - 2 5 oC
D I S C H AR G E I N W A T T S P E R C E L L 30' 10.8 16.7 20.3 10.8 20.3 28.0 45.2 58.5 76.3 89.9 106 118 120 131 163 183 208 230 251 267 309 334 190 281 283 301
20 - 25 C 8 hr -
10 hr 12 hr 20 hr -
End o f Discharge Voltage = 1.70 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
D I S C H A R G E IN W A T T S P E R C E L L 90' 5.82 8.69 10.4 5.82 10.4 14.3 21.7 26.3 35.1 43.2 51.5 57.3 57.9 66.2 80.7 88.1 101 119 126 141 169 188 89.8 160 147 163
10 hr 12 hr 20 hr o
D I S C H A R G E IN W A T T S P E R C E L L
E n d o f D i sc h a r g e V o l t ag e = 1 .6 5 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
o
D I S C H A R G E IN W A T T S P E R C E L L
20 - 25 C 8 hr -
10 hr 12 hr 20 hr -
End of Discharg e Voltage = 1.60 Model HZY6-7.5 HZY6-10 HZY6-12 HZY12-7.5 HZY12-12 HZY12-18 HZY12-26 HZY12-33 HZY12-44 HZY12-55 HZY12-60 HZY12-70J HZY12-70 HZY12-80 HZY12-100 HZY12-110 HZY12-120 HZY12-135 HZY12-150 HZY12-160 HZY12-200 HZY12-230 HZY6-110 HZY6-155 HZY6-160 HZY6-200
IMPORTANT NOTE: GEL batteries do not deliver full capacity on the first cycle, in fact they take approx. 15 to 20 cycles to reach full capacity. This reduced initial capacity effect is due to the extremely durable crystal structure employed in the Haze GEL range.The capacity quoted in this catalogue is full capacity.
Central Gassing - Haze produce some models with a integral central gassing system. This system is a useful feature when batteries are installed in an IP66 cabinet. Sealing prevents any escaping gas from exiting the enclosure. Central gassing allows a tube carrying the emissions to pass through a seal to atmosphere. Haze are adding this feature to a number of sizes, if you require this feature please contact us for an upto-date list of models included.