xd vision, s.r.o., vyšehradská 8 851 06 bratislava slovakia +421 … · 2017. 2. 2. · xd...
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XD Vision, s.r.o., Vyšehradská 8 851 06 Bratislava Slovakia
+421 43 5111272 [email protected] www.xdvision.sk
4XVÍCE ENERGIE
NA VAŠICH CESTÁCH
Lithiové baterie – vaše spokojenost
Váš obchodní partner:
Více magazín
2/2016 a 3/2016
6/2016 a 10/2016
Více
4X VÍCE ENERGIENA VAŠICH CESTÁCH
Lithiové baterie – vaše spokojenost
Kontaktujte naše obchodní zástupce na:
Model name SAES 5000 Stand Alone Energy Station
Nominal capacity 5 kWp Base fo 20´ container
Nominal speed of wind 12 m/s 43,2 km/h
Start-up speed 1.6 m/s 5,76 km/h
Electro-magnetic brake 108-218 km/s 30-60,5 m/s
Height of the generator 5,5 m 216,53 in
Diameter 3,5 m 137,79 in
Max. rotor revolutions 100
Type of the generator NdFeB Neodymium magnet
Output voltage 230 VAC Depends on the country
Weight of the generator 420 Kg 924 ib
Noise level 40 dB
Horizontal wind turbine MVE 5000
Photovoltaic modules 3 kW Base for 20´ container
Battery technology LiFeUP4 Lithium-iron-fosfate
Power Bank Adjustable capacity 3000/6000/12000 Ah
BMS LTW-BMS Fully configurable + remote management capability
Weight of SAES system 4989 kg For 20´ container in libras 10 975,8 ib
Alternative equipment Sewage treatment, diesel or gas generator, transmitter, link
Product specification
SAES 5000 Stand Alone Energy Station
DESCRIPTION:
Hybrid installation (solar and windenergy)Backed up by Hydrogen Cell Cube IPrinciple of operation:Power from the wind generator and solarpanels charges the battery. Gained power
is then used to power appliances.
GRID OFF TECHNOLOGY FOR AHYBRID COMBINATION, EXPLOITING
THE ENERGY OF THE WIND ANDSOLAR
Product specification
SAES 5000
HYDROGEN CELL
Model name Cube I Hydrogen cell
Fuel H2 Hydrogen
Hydrogen Supply Pressure 5 – 13,6 Bars
Hydrogen Consumption < 1.7 Nm /h³
Cooling air inlet/outlet 700 Nm /h³
Venting of Hydrogen 10Nm /h1³ H2 input pressure relief device
Hydrogen concentration < 25% LEL In exhaust air, average per minute
Dimension 850x470x850 In milimeters
Weight 125 kg In kilograms
Max Output Current 82 A
System Efficiency Up to 47%
Permissible ambiente temperature +3°C to +40°C
Permissible storage temperature +3°C to +50°C
Reaction Chamber Exhaust Air < 65 Nm /h³
DESCRIPTION:
hydrogen-powered fuel cell system that
generates electricity without any emissions
whatsoever. It converts the energy stored in
hydrogen directly into electrical power - safely
and extremely efficiently. The advantages
include:
? Very high overall efficiency
? Quiet and smooth operation
? Comprehensive range of safety
features
Cube I Cell is especially suited to autonomous power supplies used in
remote locations. The safety and reliability of the system takes top
priority.
DRAWING:
Product specification
SAES 5000
CONNECTION ON THE FRONT OF THEDEVICE:
? Terminals fo DC battery
? USB
? Varios interfaces for flexible systém
integration
MEDIA INTERFACES:
1. Reaction condensate air outlet DN50
2. Comressed hydrogen supply
3. Hdydrogen venting connection
4. Reaction condensation Swagelok
5. Cooling air inlet/outlet
ADVANTAGES:
? Cube I Cell system boasts high system efficiency and the
perfect safety strategy. When in use, the system
? operates quietly and with minimal vibrations. It is extremely
user-friendly and straightforward to maintain owing to
? comprehensive remote system monitoring and an ingenious
connection package for operation independently of the
indoor air
? Simple, user-friendly operation and maintenance
In combination with water purifier you can achieve fully
closed system.
battery cell Lithium Iron Ultra Phosphate
Model name LTW-B-3,2V100Ah LiFeUP4
Nominal voltage 3.2 V Opera!ng voltage under load is 3.0 V
Capacity 100 Ah +/- 5%
Internal Resistance < 0,4 mΩ
Opera!ng voltage min 2,6 - max 3,65 V At 80% DOD
Discharge Termina!on Voltage 2.5 V The cells is damaged if voltage drops below this level
Charging Voltage Limit 3.7 V The cells is damaged if voltage exceeds this level
Standard Charge Current 33,3 A 0,5C Constant Current
Standard Discharge Current 33,3 A 0,5C Constant Current
Life cycles > 6000 0.5C, 80% DDC
Maximum Con!nuous
Discharge Current
300 A 5C Constant Current
Maximum Instantaneous
Discharge Current
1000 A 10C >15sec
3C Discharge Capacity ≥ 98 Ah Nominal Capacity 98 %
Working Temp. charging -5°C ~ 55°C The battery temperature should not increase this level
Working Temp. discharging -20°C ~ 80°C The battery temperature should not increase this level
Storage thermal Ambient -20°C ~ 45°C The battery temperature should not increase this level
Atmospheric Pressure 86~106 KPa
Rela!ve Humidity 25%~85% RH
Shell Material AL / plas!k flame retardants
Size (L×W×H) 36 × 230 × 218 mm millimeters (tolerance +/- 1 mm)
Weight 3360g grams (tolerance ±50g)
DESCRIPTION:
New chemical composi!on of the cells -Lithium Iron Ul-
tra Phosphate (LiFeUP4)
- cells with higher capacity range, thanks to an innova!ve
method of production.
Lithium Iron Ultra Phosphate technology has two impor-
tant advantages over other
lithium-ion batteries, these are thermal and chemical sta-
bility. Both of which characteristics
improve safety of batteries.
Safety and reliability are key aspects of any facility for
storing energy in batteries.
LTW-B-3,2V/100Ah
Battery specification
www.ltw-battery.com
www.mw-kw.cz
NEWNNNNEEEEWWWWNEWTECHNOLOGYTECHNOLOGY
DIMENSION DRAWING
Solar Ba�ery specifica� on
www.ltw-battery.com
www.mw-kw.cz
xxxxx
NEWNNNNEEEEWWWWNEWTECHNOLOGYTECHNOLOGY
Your seller:
in 25°C 100% 100% 100%
50% 100% 100%
25% 100% 100%
12% 100% 100%
6% 100% 100%
3% 100% 100%
0% 100% 100%
0% 90% 100%
in 30°C
in 36°C
in 41°C
in 47°C
in 53°C
in 60°C
in 70°C
in 80°C 0% 80% 100%
Lead AcidOK up 25°C
Remaining Lifecycles at different Temperatures
LiFePO4OK up 60°C
LTW LiFeUP4OK up 80°C
TEMPERATURE DEPENDENCESBoundaries of Lifecycle Shortering
0
10%
1000 2000 3000 4000 5000 6000 7000 8000
20%
30%
40%
50%
60%
70%
80%
90%
De
pth
of
Dis
ch
arg
e (
DO
D)
LiFePO4
LTW Battery
LTW Battery helps to safe our environment and money.
Each LTW Battery saves approximately 3 kg of CO2.
Which corresponds to compare burnout:
LTW SAVING
3600 cycles
80% DOD
2200 cycles
80% DOD
500 cycles
250 cycles
Charge / Discharge Cycles
LTW Battery Cycle Life Comparsion(Discharge current of 0,5 C)
100%
AMG Lead Acid Deep Cycle
Lead Acid
1V/1Ah = 0,0001 kg CO2
1 m3 natural gas = 2,62 kg CO2
1 kg coal = 1,92 kg CO2
1 l gasoline = 2,29 kg CO2
1 l of diesel = 2,60 kg CO2
COMPARISON GRAPH OF DENSITY OF
ENERGY BY WEIGHT OF DIFFERENT
BATTERY TYPES
COMPARISON GRAPH
OF LIFECYCLES OF LTW
AND LEADEN
BATTERIES IN
DIFFERENT DEPTHS OF
DISCHARGING
LTW-B-3,2V/100Ah
Battery specification
www.mw-kw.cz
www.ltw-battery.com
Solar module
Model name LTW-P60/260 LTW Solar panel made by Wande
Maximum power 260 W Pmpp at standard test condi!ons
Posi!ve power tolerance 0+5W At standard test condi!ons
Open Circuit Voltage 37.7 V Voc at standard test condi!ons
Short circuit current 8.92 A Isc atstandard test condi!ons
Maximum power voltage 30.4 V Vmpp at standard test condi!ons
Maximum power current 8.54 A Impp at standard test condi!ons
Module efficiency 15.98% At standard test condi!ons
Maximum power 192 W Electrical characteristics at normal operating temperature
Maximum power voltage 28.2 V Electrical characteristics at normal operating temperature
Maximum power current 6.81 AElectrical characteristics at normal operating temperature
Open circuit voltage 34.9 VElectrical characteristics at normal operating temperature
Short circuit current 7.12 AElectrical characteristics at normal operating temperature
Voltage Temperature Coefficient -0.32%/°C
Current Temperature Coefficient +0.036%/°C
Power Temperature Coefficient -0.44%/°C
Cells 6 x 10 pieces Polycrystalline solar cells series strings (156mm x 156mm)
Cell encapsula!on EVA Ethylene-Vinyl-Acetate
Frame Aluminum Anodized aluminum profile
Size 1640 × 992× 35mm millimeters (tolerance +/- 1 mm)
DESCRIPTION:
LTW panels made by Wande
Power: 260W
The panels have the highest conversion efficiency in the
market.
The panels are certificated to withstand wind up to
(2400 Pa) and snow load (5400 Pa).
They have excellent performance under weak light.
Excellent temperature coefficient enables better output
in hot climates
Efficiency: 15.98%
LTW-P60/260
Solar Panel
www.ltw-battery.com
www.mw-kw.cz
LTW&P60/260
Solar Ba�ery specifica� on
www.ltw-battery.com
www.mw-kw.cz
xxxxx
Your seller:
DIMENSIONS
LTW-P60/260
Solar Panel
www.mw-kw.cz
Product specification
SAES 5000
OTHER ACCESORRIES THAT CAN BE DELIVERED:
Diesel generator of performance according to the customer‘s requirementsWater treatment of specification according to the customer‘s requirements
Water pumping device with possibility of external water pipes solution3 kW Hydrogen cell or other technology regarding customer‘s specification and solar
panels charges the battery. Gained power
ADVANTAGES:The solar energy serves as a stable supply during insufficient wind conditions.
Wind energy serves as a reliable source of power when the sun can not provide enough energy.“Windsolar” system = ideal solution for independent energy supply.
INSTALLATION OVERVIEW:
LiFePO4 Battery specification
LTW technologie baterií oproti olověným technologiím. - Porovnání technických a provozních parametrů.
Základní analýza LTW baterií:
- Chemický základ LiFePO4 + SMART kontrolér – Vyšší nominální napětí na 1 článek u LTW oproti nižšímu napětí olova. -- 3.2V vs. 2.0V olovo. – Vysoká energetická hustota LTW. -- Hustota na váhu 3x vyšší, hustota na objem 6x vyšší. – Menší rozměry a nižší hmotnost -- šetří prostor v bateriových boxech. – Široký rozsah provozní teploty při zachování max. parametrů -25°C až +60°C . – Podporuje rychlé nabíjení a vybíjení. -- Vysoká efektivita (97% LTW vs. 75% olovo). – Dlouhá životnost. -- Větší počet Cyklů (5000 cyklů LTW vs. 500 olovo). – Hluboká vybíjecí tolerance -- 95% LTW vs. 50% olovo. – LTW baterie umožní rozložit náklady na dlouhou dobu oproti krátkodobému olovu. – Dlouhá doba mezi pravidelnými servisními zásahy (36+ měs. LTW vs. 6 měs. olovo) – Časový rámec výměny baterií LTW 5-7 let. Olověné baterie výměna 1.5 - 2 roky.
Graf porovnává hustotu energie na váhu u článků různých typů.
www.ltw-battery.com www.ltw-battery.com www.ltw-battery.com
LiFePO4 Battery specification
Tabulka hlavních rozdílů:
• Nominální napětí článku OLOVO 2.0V
LiFePO4 3.2V
LTW 3,2V
• Rozmezí provozního napětí 1.8 - 2.1V 2.6 – 3.7V 2.5 – 3.6V • Hustota energie na váhu Wh/kg 35 – 40 115 119 • Hustota energie na objem Wh/liter 70 140 150 • Objem 1 kWh baterie 14 Litrů 6,5 Litrů 6,4 Litrů • Váha 1 kWh baterie 25kg 8,7kg 8,5kg
• Objem 1 MWh baterie (1/2 z 20’ kontejneru)
• Váha 1 MWh baterie
14 285 Litrů
25 000kg
6 500 Litrů
8 700kg
6400 Litrů
8 500kg
Graf porovnává životnost LTW baterií vs. OLOVĚNÉ při různých hloubkách vybíjení.
www.ltw-battery.com www.ltw-battery.com www.ltw-battery.com
LiFePO4 Battery specification
Tabulka teplotních závislostí:
– Teplotní hranice krácení životnosti
Lead Acid OK to 25°C
LiFePO4 OK to 60°C
LTW OK to 80°C
Zbývající % životnosti při různých teplotách 100% při 25°C 100% 100%
50% při 30°C 100% 100% 25% při 36°C 100% 100% 12% při 41°C 100% 100% 6% při 47°C 100% 100% 3% při 53°C 100% 100% 0% při 60°C 100% 100% 0% při 70°C 90% 100% 0% při 80°C 80% 100%
Graf porovnává životnost v počtech cyklů LTW baterií vs. olověné gelové a olověné kyselinové baterie.
www.ltw-battery.com www.ltw-battery.com www.ltw-battery.com
LiFePO4 Battery specification
Porovnání schopnosti přijímat energii - nabíjení:
Porovnání schopnosti vydávat energii - vybíjení:
www.ltw-battery.com www.ltw-battery.com www.ltw-battery.com