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TODAY’S INVENTION TOMORROW’S LIVING for
PROVIDING 2 4HOU R S SUSTAINABLE ELECTRICITY S U P P L Y
By
LIFETIME SYSTEM
TOMORROW for
Relatively, the Stand-Alone Hydro power generation plant can last for a long time if maintenance is carried out periodically. All the moving parts are replaceable when they reach the retiring times according to the factory’s specifications, while the metal section lasts longer if it maintains and taken care well.
Rising electricity tariffs have seen many business owners choose a solar system to harvest free electricity. However, the investment is enormous. It costs millions to install a set of solar systems to produce a certain amount of power and sustain it for 24 hours. DISADVANTAGES OF SOLAR ENERGY: Cost - The initial cost of purchasing a solar system is pretty high. This includes paying for solar panels, inverter, batteries, wiring, and installation. Weather Dependent - Solar panels are dependent on sunlight to gather solar energy effectively. Therefore, a few cloudy, rainy days can have a noticeable effect on the energy system. Also, solar energy cannot be collected during the night. Uses a Lot of Space -The more electricity you want to produce, the more solar panels you will need as it can only make 400watt for each panel. It will require a lot of space. Associated with Pollution- Some toxic materials and hazardous products are used during the manufacturing process of solar photovoltaic systems, which can indirectly affect the environment.
PRESENT TECHNOLOGY for the FUTURE
A COMPLETE RENEWABLE ENERGY SYSTEM
for
FOR THE FUTURE
EMBRACING FUTURE WITH RENEWABLE ENERGY
TECHNOLOGY for the
ENVIRONMENT
The Asian market and the world will look upon our system with admiration in the future. We take great pride in our system's ability to deliver all this with zero CO2 emission commitments while creating a cutting-edge, stable infrastructure for supplying more electricity production for the people with NO taxpayer money. Our system harvests the free elements from nature - water. Using varieties of water, our designed system can generate energy and store it in our built-in storage system. The power stored is used to provide the electricity needed.
It is not that difficult to set up a system that can produce clean energy. However, the scale of it can be a considerable challenge. The tricky part is to make it stable and to make it profitable. Reducing costs is a no-regrets move in an industry facing slow growth, rising costs, and heightened competition. ElQuator offers an advanced solution that is easily integrated into existing architecture. It simplifies the procurement process for energy storage with full planning and deployment and fully managed construction in sustainable ways, as follows: SECURITY: Delivering the highest level of reliability and availability of electricity to end-users in all areas/parts of the world (all systems run on a storage concept, nonstop – get the power you need when you need it) ENVIRONMENT: CO2-free, clean energy from existing resources. No need for nuclear power or the construction of new Hydro dams ECONOMY: Cost-effective energy production. With our system, there is a minimal cost to produce power around the clock. INDUSTRY: Focus on the specific market and contract requirements, guaranteeing performance in a unique market and operating constraints as well as improving domestic infrastructures DELIVERING ENERGY for the WORLD
TECHNOLOGIES we BUILT
ENERGY GENERATION SYSTEM WORLD for the
We are proud that we successfully improved the conventional windmill by improvising the design, where we scaled down the size and changed the turbine rotation from horizontal to vertical. Our Vertical Axis Wind Turbine System is far more efficient with just a low wind presence. Now, anyone can own a windmill complete with a wind energy system as our design can be used anywhere in the World with a low wind knot and yet still able to produce sufficient energy. The idea behind our Vertical Axis Wind Turbine System is that we come up with a very light windmill with the same m2 wing area as a traditional windmill. We use natural elements to spin our shafts to drive our permanent magnet generator (PMG), the same concept as the bicycle dynamo. The stronger the wind speed, the more power will be harnessed. With that, the energy storage is filled. Unlike the traditional windmill that uses high knot wind to move the blades, our Vertical Windmill System is lighter and smaller. It is more practical to be installed in any area and runs well regardless of any wind direction. Our specifically designed blades can turn the kinetic energy in the wind into power that ranges from 40kW per system. We create our Vertical Windmill System as simple as possible to minimize the cost but still carry a cutting-edge, high- performance deliverance. We designed the pole to be tall so the blades could capture the wind speed as low as 2.3m/s to start spinning and generating energy. We ensure the power is enough as required with the build-in Energy Storage System. Everything comes in one piece, plug and play. Saving the surplus will no longer be an issue as all energy generated is kept in our storage and made available whenever needed. We believe our Vertical Windmill System will be a new renewable energy system phenomenon. It will revolutionize how wind power can be generated and provide the green, renewable, and sustainable energy that the World needs.
HOW WE GENERATE the POWER
WATER for
ENERGY
Intellectual Property Rights Protection protects the design shown.
1
SAH MECHANISM
2
6
1. Top tank water is released through the 35 degrees angle pipe down. 2. The water reaches the Pelton turbine and spins the generator. 3. Water from Pelton turbine falls downward and goes through 4 sets of Pryter Impeller. 4. Water sucked by the water pump and 5. Pushed to the top tank via the 90 degrees pipe 6. The water reaches the top tank. 7. Restart process no. 1
3
5
4
Intellectual Property Rights Protection protects the design shown.
ELECTRICITY DISTRIBUTION
Intellectual Property Rights Protection protects the design shown.
Intellectual Property Rights Protection protects the design shown.
PUMPS
®
K SINGLE IMPELLER PUMPS
K 20/41
for the
K 40/400
SYSTEM
Liquid temperature range: from -10°C to +50°C for K 20/41, K 30/70, K 30/100, K 36/100, K 12/200, K 36/200, K 40/200 from -15° C to +110°C for other pumps Maximum ambient temperature : +40°C Maximum operating pressure: K 20/41, K 30/70, K 30/100, K 36/100, K 12/200, K 14/400: 6 bar (600 kPa) K 36/200, K 40/200, K 55/200, K 11/500, K 18/500, K 28/500: 8 bar (800 kPa) K 40/400, K 50/400, K 30/800, K 40/800, K 50/800, K 20/1200, K 25/1200, K 35/1200: 10 bar (1000 kPa) Protection level : IP 44 Terminal board protection level : IP 55 Insulation class : F
Single impeller centrifugal pump designed for domestic, civil, industrial and agri- cultural installations and for decanting, mixing and irrigating uses. Cast iron pump body and motor support. Technopolymer or cast iron impeller as indicated in the TECHNICAL DATA table. Stainless steel driving shaft. Carbon/ceramic mechanical seal. Asynchronous, closed motor, cooled by external ventilation. Built-in thermal and current overload protection and a capacitor permanently on in the single-phase version. For the protection of the three-phase motor it is advisable to use a suitable overload protection complying with the regulations in force. Operating range : from 1.8 to 96 m 3 /h with head up to 62 metres. Pumped liquid characteristics :clean, free from solids or abrasive substances, not viscous, not aggressive, not crystallised, chemically neutral and close to the characteristics of water.
TECHNICAL DATA
ELECTRICAL DATA P2 NOMINAL kW HP
P1 MAX kW 0,65 0,64 1,3 1,2 1,6 1,63 2,1 2 1,05 1,02 3
CAPACITOR µF Vc
MODEL
VOLTAGE 50 Hz
In A
®
K 20/41 M K 20/41 T K 30/70 M K 30/70 T K 30/100 M K 30/100 T K 36/100 M K 36/100 T K 12/200 M K 12/200 T K 36/200 T K 40/200 T K 55/200 T K 14/400 M K 14/400 T K 11/500 T K 18/500 T K 28/500 T K 40/400 T K 50/400 T K 30/800 T K 40/800 T K 50/800 T K 20/1200 T K 25/1200 T K 35/1200 T
3 2,3-1,3 6 4,3-2,5 8 5,5-3 8,8 6,9-4 4,6 3,6-2,1 9-5,2 11,1-6,4 16,3-9,4 9,5 7,4 9,1-5,8 10,2-5,9 14,7-8,5 11,5
450 – 450 – 450 – 450 – 450 – – – – 450
0,5 0,5
0,37 0,37 0,75 0,75
10 – 20 – 31,5 – 40 – 20
1x220-240 V ~ 3x230-400 V ~ 1x220-240 V ~ 3x230-400 V ~ 1x220-240 V ~ 3x230-400 V ~ 1x220-240 V ~ 3x230-400 V ~ 1x220-240 V ~ 3x230-400 V ~ 3x230-400 V ~ 3x230-400 V ~ 3x230-400 V ~ 1x220-240 V ~ 3x230-400 V ~ 3x230-400 V ~ 3x230-400 V ~ 3x230-400 V ~ 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ * 3x400 V ~ ∆ *
DIMENSIONS AND WEIGHTS
K 30/100 - 36/100
K 20/41 - 30/70 - 12/200
1 1
1,5 1,5 2,5 2,5
1,1 1,1
1,85 1,85 0,75 0,75 2,2
1 1 3 4
– – – 40
3 4
3,5 4,9 2,1 2,1 2,6 3,4 4,5 7
5,5 2,5 2,5
K 36/200 - 40/200 - 55/200 14/400 - 11/500 - 18/500 - 28/500
K 40/400 - 50/400 - 30/800 - 40/800 - 50/800 20/1200 - 25/1200 - 35/1200
1,85 1,85 2,2
– – – – – – – – – – – – –
– – – – – – – – – – – –
3 4
4 holes Ø 18
3 4
5,5 7,5
5,5 7,5 7,5 9,2 11 7,5 9,2 11
15 14 18
10 10 12,5 15 10 12,5 15
9,4 8,3 11 12,75 8,9 10 11,4
4 holes Ø 18
20,5 15,4 18 19,3
WEIGHT Kg
MODEL
A
B
C
D
E
G
Ø I
H
H1
DNA
DNM
* Star ( ) starting is possible
K 20/41 K 30/70 K 30/100 K 36/100 K 12/200 K 36/200 K 40/200 K 55/200
275
160
50
100
50
110
9
205
85
1” G
1” G
10
300
185
50
108
58
140
9
235
100
1” G
1” G
14,5
1 1 /
333
200
50
114
64
140
9
255
105
2 ” G
1” G
18,5
1 1 /
333
200
50
114
64
140
9
255
105
2 ” G
1” G
19,7
1 1 /
1 /
312
169
45
114
69
110
9
218
85
2 ” G 1
2 ” G
13,8
1 1 /
425
250
55
–
86
175
14
320
135
2” G
4 ” G
32,1
1 1 /
425
250
55
–
86
175
14
320
135
2” G
4 ” G
33,9
1 1 /
425
250
55
–
86
175
14
320
135
2” G
4 ” G
33,9
K 14/400 M K 14/400 T K 11/500 K 18/500 K 28/500 K 40/400 K 50/400 K 30/800 K 40/800 K 50/800 K 20/1200 K 25/1200 K 35/1200
430
200
62
–
74
120
11
270
105
2” G
2” G
24,5
358
200
62
–
74
120
11
270
105
2” G
2” G
22
2 1 /
440
240
62
–
100
155
14
312
132
2 ” G
2” G
33,2
2 1 /
440
240
62
–
100
155
14
312
132
2 ” G
2” G
35,6
2 1 /
440
240
62
–
100
155
14
312
132
2 ” G
2” G
39,6
560
273
100
–
110
212
14
360
160
65
50
78,8
Each 50kWh Stand-Alone Hydro system uses three units of DAB pumps model numner 40/400T. These are the most efficient pumps for heavy-duty usage.
560
273
100
–
110
212
14
360
160
65
50
78,8
600
273
100
–
110
212
14
385
160
80
65
90,2
600
273
100
–
110
212
14
385
160
80
65
95
600
273
100
–
110
212
14
385
160
80
65
104,3
600
273
100
–
110
212
14
385
160
80
65
88
600
273
100
–
110
212
14
385
160
80
65
94
600
273
100
–
110
212
14
385
160
80
65
100
CAPACITY FACTOR
of the
SYSTEM
Each unit (or line) of the system has its moving parts and energy generation generator – Permanent Magnet Generator (PMG). With that being said, each line will produce its maximum capacity as required and store the energy generated in the energy storage system, which will send out the power whenever needed. OVERALL EFFICIENCY SYSTEM of the With the lines combined and becoming the energy production power plant, it can generate to the maximum capacity (if required), thus giving the efficiency 100%.
RENEWABLE ENERGY SYSTEM COMPARISON
ITEM
PV SOLAR POWER PLANT
HYDRO DAM POWER PLANT
STAND-ALONE MICRO- HYDROPOWER PLANT
VERTICAL WIND TURBINE PARK
ENERGY STORAGE SYSTEM
Area
Huge land usage
Not suitable for small power production Dependent - Low production during the dry season due to less water flowing
19,900 square meter land usage Not dependent - Same production around the clock All energy produced goes straight to the storage system MYR 12,600,000.00 for 1MW including the storage system 2-5 years progress installation before full commissioning Less investment due to ability to be installed near to the end-user
16,875 square meter in total Not dependent - Consistency power output with at least 2.3 m/s All energy produced goes straight to the storage system System start from 5kWh - 40kWh - between RM66,240 until RM260,000 1-3 years progress installation before full commissioning Less investment due to ability to be installed near to the end-user Normal construction steel Not impact any ecosystems as the system built in a nearby population area Low
1. Lithium ion
Weather
Dependent – Low or no output during rainy or hazy weather
· Limited charging life-span · Fast charge and discharge
Storage system
Not available
Not available
· Pollution rivers and killing wildlife – chemical leak from mine 2. Redox flow battery · Can charge 20 times cycle · Low maintenance cost · Independent system
Investment cost
Huge investment cost
Huge investment cost
Time
1-2 years installation period before commissioning Huge investment
3-5 years construction period before commissioning
design for power and capacity
Transmission line
Huge investment
· Low environment footprint
Maintenance
High
High
Low
3. Compressed air
Material
High quality
High quality
Normal construction steel
· Reliability of operation and remote controlling · Easy to control · Environmentally friendly · High operation cost
Environment
Impact – disrupt surrounding ecosystems due to area submerged in water Associated with pollution need everyday cleaning of PV Solar Panels Damaged Concerns about the safety of the panels Materials are possible to be recycled
Impact - disrupts ecosystems due to forestation. Trees and bushes removed
Not impact any ecosystems as the system built in a nearby population area
Geological
Damaged
Not effected
Not effected
Human factors
Uproots human populations
No uproots human populations
No uproots human populations
Safety
Concerns about the safety of the dams Materials are likely to be recycled
No high-risk safety issues
No high-risk safety issues Can be recycled
Recycle
Can be recycled
ENERGY OUTPUT of the 50KWH SYSTEM
Unit
PMG (kW)
Volt
Hz
RPM Outcome (watt)
Remarks
1
20 10
490 421
50 50 50
900 336 148
21xxx 21xxx
Play video 1 Play video 2 Play video 3
1+2
12
3
23
1280 per unit
10
48
50
170
31xx
Play video 4
In each 50kWh system, we can generate the amount of electricity as per the following explanation. Please click ‘play video’ to view the videos.
POWER IN
and
POWER OUT
POWER OUT
watt
POWER IN
watt
ENERGY AVAILABLE (watt)
20kW PMG
21,318
3xDAB pump
14,626
2x10kW PMG 21,014 12x3kW PMG 15,360 10kW PMG 9020 TOTAL 66,712
TOTAL
14,626
52,086
of the MINI-HYDRO LATEST INVENTION
The latest mini-hydro is designed to provide a sustainable self-maintained system and can produce around 6kW of electricity around the clock. The design is suitable to power up an average household, including a heater and even charging electric cars. The system is another innovation created that can be set up anywhere to provide clean, green, and Renewable Energy.
Intellectual Property Rights Protection protects the design shown.
Intellectual Property Rights Protection protects the design shown.
FRANCIS TURBINE
WATER TURBINE
WATER PUMP 1.5kW
Intellectual Property Rights Protection protects the design shown.
ENERGY STORAGE SYSTEM design for SUSTAINABILITY
LITHIUM-ION A lithium-ion battery or Li-ion battery is a type of rechargeable battery in which lithium ions move from the negative electrode through an electrolyte to the positive electrode during discharge and back when charging. Li-ion batteries use an intercalated lithium compound as the material at the positive electrode and typically graphite at the negative electrode. Li-ion batteries have a high energy density, no memory effect (other than LFP cells), and low self-discharge. Cells can be manufactured to either prioritize energy or power density. They can, however, be a safety hazard since they contain flammable electrolytes and, if damaged or incorrectly charged, can lead to explosions and fires. Chemistry, performance, cost, and safety characteristics vary across types of lithium-ion batteries. Handheld electronics mostly use lithium polymer batteries (with a polymer gel as electrolyte), a lithium cobalt oxide (LiCoO2) cathode material, and a graphite anode, which together offer a high energy density. Lithium iron phosphate (LiFePO4), lithium manganese oxide (LiMn2O4 spinel, or Li2MnO3-based lithium-rich layered materials, LMR-NMC), and lithium nickel manganese cobalt oxide (LiNiMnCoO2 or NMC) may offer longer lives and may have better rate capability. Such batteries are used for electric tools, medical equipment, and other roles. NMC and its derivatives are commonly used in electric vehicles.
COMPRESSED AIR ENERGY STORAGE TECHNOLOGY
Compressed air energy storage (CAES) uses surplus energy to compress air stored in the reservoir. The compression of the air generates heat. The air stored is then released to a turbine combustor to generate electricity. The aim, of course, is to save as much as possible unused renewable energy from the system. Then, when electricity is needed again, the compressed air is released and spins the turbine to unleash the power back for usage. The first such system was a 290MW plant developed by E.ON-Kraftwerk at Huntorf, Germany, in 1978. The intention was to help manage grid loads by storing electricity as pressurized air during nighttime when demand was low and rereleasing it when demand increased. The plant is still operationally used for backup power.
SYSTEM’S PRICING
SYSTEM/ TECHNOLOGY
SYSTEM’S PRICING
RETURN OF INVESTMENT
1MWh = 1,000 kWh 1,000 kW x 24 hours x 365 days = 8,760,000 kW x €0.12/kW = €1,051,200/year
€2,736,970 1 MWh system inclusive of an energy storage system
Stand-Alone Hydro (SAH)
CREATOR
DESIGNER & Danish nationality, Henrik Pryter, the CEO of ElQuator Holding Berhad, always had his eyes for everything he saw. He is the brainchild of all the systems developed for the company. His vision is to see the world is less polluted and CO2 is reduced by adapting to using Renewable Energy, with or without his system. He is the creator and the owner of all the systems he believes will change how energy is produced in the future.
GET to
KNOW US
Elquator Holding Berhad is a European-owned company based in Malaysia. We owned IP design rights for complete Renewable Energy systems, and we are the only manufacturer for vertical wind turbine systems in South East Asia. All our energy production system is equipped with a high-technology storage system that will ensure sustainable energy supplies around the clock. We believe our state-of-the-art energy system could assist in mitigating the CO2 emission from electricity production from coal and gas. Our technology can produce wind energy with a mere 2.3m/s wind speed and fill up the storage system despite the myth that the wind pattern in this region is not suitable for generating wind power.
ELQUATOR HOLDING BERHAD (1374536-P) No 1, Jalan P4/8B, Palm Industrial Park, Bandar Teknologi Kajang, 43500 Semenyih, Selangor, MALAYSIA
Tel: +6(03)87260207 www.elquator.com
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