Copper Conductors

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Customized copper conductor for best price and fast worldwide delivery

Copper conductors are commonly used in power transmission and distribution systems due to their excellent electrical conductivity, durability, and other desirable properties. Copper has been a preferred material for electrical conductors for many years. Here are some key aspects of copper conductors for power transmission and distribution:

Properties and Advantages: High Conductivity: Copper is an excellent conductor of electricity, and it has one of the highest electrical conductivities among common metals. This property allows for efficient power transmission with minimal energy loss.

Ductility and Malleability: Copper is highly ductile and malleable, making it easy to draw into thin wires. This flexibility is essential for manufacturing conductors with various sizes and lengths.

Durability: Copper is corrosion-resistant, which enhances the durability of the conductors. It can withstand harsh environmental conditions and maintain its electrical performance over an extended period.

High Melting Point: Copper has a relatively high melting point, contributing to its ability to handle high current loads without the risk of melting or deforming.

Good Thermal Conductivity: Copper has excellent thermal conductivity, allowing for effective heat dissipation in high-current applications. This property helps prevent overheating and ensures the stability of the electrical system.

Low Electrical Resistance: The low electrical resistance of copper minimizes power losses during transmission, making it an energy-efficient choice for power distribution.

Readily Available: Copper is abundant in nature and widely available, contributing to its cost-effectiveness and suitability for large-scale power infrastructure projects.

Applications: Power Lines and Cables: Copper conductors are extensively used in overhead power lines and underground cables for the transmission and distribution of electrical energy.

Transformers: Copper windings in transformers play a crucial role in transforming voltage levels between power generation and distribution.

Substations: Copper is used in busbars and other components within substations to facilitate the distribution and control of electrical power.

Electrical Equipment: Copper conductors are integral components in various electrical equipment, including switchgear, circuit breakers, and other devices used in power systems.

Renewable Energy Systems: Copper is employed in the wiring and interconnection of components in renewable energy systems such as solar panels and wind turbines.

High Voltage Applications: Due to its electrical and thermal properties, copper is suitable for high-voltage applications where efficient power transmission and heat dissipation are crucial.

Considerations: Cost: While copper is an excellent conductor, it can be more expensive than alternative materials like aluminum. However, its performance benefits often justify the cost.

Weight: Copper is denser than aluminum, leading to heavier conductors. This factor may be relevant in certain applications, such as overhead lines.

Jointing and Terminations: Proper jointing and termination methods are crucial to ensure the efficiency and reliability of copper conductors in power systems.

Copper conductors continue to be a preferred choice in power transmission and distribution systems, providing a balance of electrical performance, durability, and other desirable characteristics for efficient energy delivery.

Copper conductors for power transmission and distribution come in various types, each designed for specific applications and requirements. The choice of conductor type depends on factors such as the voltage levels, current carrying capacity, environmental conditions, and the specific needs of the power transmission and distribution system. Here are some common types of copper conductors used in power systems:

Stranded Copper Conductors: Description: Composed of multiple small strands of copper wire twisted or braided together. Application: Commonly used in overhead power lines and flexible applications where flexibility is crucial.

Solid Copper Conductors: Description: Single, solid copper wire. Application: Suitable for fixed installations and applications where flexibility is not a primary concern.

Bare Copper Conductors: Description: Uninsulated copper conductors without any outer covering. Application: Used in overhead power lines where insulation is provided by air, or in grounding systems.

Insulated Copper Conductors: Description: Copper conductors coated with an insulating material such as PVC (Polyvinyl Chloride) or XLPE (Cross-Linked Polyethylene). Application: Widely used in power cables for underground or enclosed installations, providing insulation to prevent short circuits.

Copper Busbars: Description: Flat strips or bars of copper used for conducting electric current within electrical equipment like switchgear and substations. Application: Efficient for distributing power within a confined space and for connecting various components in electrical systems.

6. High-Temperature Copper Conductors: Description: Copper conductors designed to withstand higher temperatures, often insulated with materials suitable for elevated temperature environments. Application: Used in applications where high temperatures are expected, such as industrial settings or near equipment generating significant heat.

Tinned Copper Conductors: Description: Copper conductors coated with a thin layer of tin. Application: Enhances corrosion resistance, making them suitable for marine and corrosive environments.

Flex Copper Conductors: Description: Flexible copper conductors designed to bend easily without breaking. Application: Ideal for applications where frequent bending or movement is required, such as in portable electrical tools or equipment.

Compact Stranded Copper Conductors: Description: Stranded conductors with a compact arrangement of strands, offering a higher current-carrying capacity. Application: Suitable for applications where a compact design is required without compromising on current-carrying capabilities.

Copper-Clad Aluminum (CCA) Conductors: Description: Aluminum conductors with a thin layer of copper cladding for improved conductivity. Application: Used in some applications where a balance between cost and conductivity is required.

Considerations: Voltage Rating: Conductor types may be designed for specific voltage levels, and it’s essential to use conductors suitable for the intended voltage.

Current Carrying Capacity: The design of the conductor should consider the expected current load to prevent overheating.

Environmental Conditions: Consideration of factors such as moisture, temperature, and chemical exposure when selecting insulated or bare conductors.

Flexibility: Applications with movement or bending requirements may necessitate the use of flexible conductors.

The selection of the appropriate type of copper conductor depends on a thorough understanding of the specific requirements and conditions of the power transmission and distribution system.

Copper conductors are widely used in power transmission and distribution for various applications due to their excellent electrical conductivity, durability, and versatility. Here are some common usages of copper conductors in power transmission and distribution systems:

Overhead Power Lines: Usage: Copper conductors are frequently used in overhead power lines to transmit electrical energy over long distances. Stranded copper conductors provide flexibility and strength to withstand environmental conditions.

Underground Power Cables: Usage: Insulated copper conductors are employed in underground power cables to distribute electricity in urban areas or regions where overhead lines are impractical or not aesthetically pleasing. The insulation protects the conductors from environmental factors.

Substation Busbars: Usage: Copper busbars are utilized in substations to distribute electrical power efficiently. Busbars made of copper provide low resistance and excellent conductivity, facilitating the transfer of high currents within the substation.

Transformers: Usage: Copper windings in transformers play a crucial role in stepping up or stepping down voltage levels. The high conductivity of copper ensures efficient energy transfer between primary and secondary windings.

Switchgear and Circuit Breakers: Usage: Copper conductors are integrated into switchgear and circuit breakers to facilitate the interruption and distribution of electrical currents. Copper’s excellent electrical conductivity ensures the reliable performance of these devices.

Distribution Lines: Usage: Copper conductors are employed in distribution lines to transmit electricity from substations to end-users. These lines can be overhead or underground, depending on the specific requirements of the distribution network.

Power Distribution Equipment: Usage: Various power distribution equipment, including distribution panels, junction boxes, and connection points, incorporate copper conductors for their superior electrical properties.

Renewable Energy Systems: Usage: Copper conductors are used in the wiring and interconnection of components in renewable energy systems, such as solar panels and wind turbines. Copper’s conductivity is essential for efficiently transferring the generated energy.

High Voltage Applications: Usage: Copper conductors are employed in high voltage applications, such as transmission lines and equipment in substations, where the ability to handle high currents and voltages is crucial.

Industrial Applications: Usage: Copper conductors are used in various industrial applications where reliable and efficient electrical transmission is required. This includes manufacturing processes, machinery, and industrial control systems.

Railway Electrification: Usage: Copper conductors are used in electrified railway systems to provide power to trains. Overhead wires and third rails often use copper for efficient energy transmission.

Elevators and Escalators: Usage: Copper conductors are used in the electrical systems of elevators and escalators, ensuring reliable and efficient power transmission for vertical transportation.

The versatile nature of copper conductors makes them suitable for a wide range of applications in power transmission and distribution systems, contributing to the overall efficiency and reliability of the electrical infrastructure.

According to IEC VDE DIN ANSI ISO IEEE standards, copper conductor is of the following type bare, hard drawn, soft annealed, tinned, compacted  and features high voltage, medium voltage, low voltage, manual and label, indoor use, outdoor use, wet weather conditions, antistatic, tested, electrostatic, certified, adjustable, insulated, insulating, composite, oil resistant, high quality.

Copper conductor and safe working environment

To ensure a safe working environment, use copper conductor in e-mobility, high voltage substation, medium voltage substation, low voltage substation, overhead power line, transformer substation, high voltage switchgear, medium voltage switchgear, low voltage switchgear, railway, subway, tramway, solar panels, hybrid car, batteries, cable, electrical sector, power plant, production, transport, energy transmission, energy distribution.

Buy online copper conductor save a lot of time and money

As a electrician, procurement, sales engineer, bidding engineer, design engineer, project manager, commissioning engineer, service engineer, operations engineer, safety manager, quality manager, electrical engineer, electrical engineer, automotive engineer, chemical engineer, electronics engineer, engineering department manager, environmental engineer, health and safety engineer, hydraulics engineer, industrial engineer, installation, repair, department manager, logistics engineer, materials engineer, mechanical engineer, planning engineer, production engineer, professional engineer, structural engineer, technical department manager, electrician welder, craftsman construction worker, installation worker, safety worker, procurement, purchasing, supervisor, foreman, commissioning engineer, skilled mechanics fitter, skilled electricians, non-skilled labor, electric engineer, you benefit from direct procurement, customized products, fast delivery, huge product variety, 24/7 stock, price, delivery time availability, 24/7 live chat in 6 languages, online order status, online shipment status, same operative system for all products, European high-quality products, environment-friendly products and make savings in procurement, project management, engineering, order execution, stock, shipment, customs duty, request for quotation, technical clarification, commercial clarification, negotiation, translation, manufacturer visit.

Order online copper conductor with worldwide fast shipping

Our customized copper conductor sourced from leading, European manufactures such as: NPA, FUX, FPE, Eltrim, Helukabel.

We ensure fast delivery of copper conductor to Bulgaria (Sofia, Plovdiv, Varna), Czech Republic (Prague, Brno, Ostrava), Hungary (Budapest), Netherlands (Amsterdam, Rotterdam, The Hague, Utrecht, Eindhoven), Poland (Warsaw, Kraków, Łódź, Wrocław, Poznań), Romania (Bucharest, Cluj-Napoca, Timisoara), Slovakia (Bratislava, Kosice), Ukraine (Kyiv, Kharkiv, Odesa, Dnipro), Bahrain (Manama, Riffa), Bangladesh (Dhaka, Chittagong, Khulna), Egypt (Cairo, Aswan, Luxor), Ghana (Accra, Kumasi, Tamale), India (Mumbai, Delhi, Bangalore), Iraq (Baghdad, Al-Mawsil, Al-Basrah), Kenya (Nairobi, Mombasa, Kisumu, Nakuru), Kuwait (Ḩawallī), Namibia(Windhoek, Rundu, Walvis Bay), Nigeria (Lagos, Kano, Ibadan, Kaduna), Oman (Muscat, Seeb, Salalah), Pakistan (Karachi, Lahore, Faisalabad), Qatar (Doha, Al Rayyan), Saudi Arabia (Riyadh, Jeddah, Makkah, Medina), South Africa (Cape Town, Durban, Johannesburg, Soweto), Tanzania (Dar es Salaam, Mwanza, Arusha), United Arab Emirates (Dubai, Abu Dhabi, Sharjah), Zambia (Lusaka, Kitwe), Croatia (Zagreb, Split, Rijeka), Greece (Athens, Thessaloniki, Patras), Israel (Jerusalem, Tel Aviv, Haifa), Turkey (Istanbul, Ankara, Izmir, Bursa), Canada (Toronto, Montreal, Calgary, Ottawa, Edmonton, Vancouver), USA (New York, Los Angeles, Chicago, Houston, Phoenix, Philadelphia, San Antonio, San Diego, Dallas, San Jose), China (Shanghai, Beijing, Guangzhou, Shenzhen, Chengdu, Chongqing), South Korea (Seoul, Busan, Incheon, Daegu), Taiwan (Taipei, Kaohsiung City, Taichung, Tainan City), Denmark (Copenhagen, Aarhus, Odense), Finland (Helsinki, Espoo, Tampere, Vantaa), Georgia (Tbilisi, Batumi), Ireland (Dublin, Belfast, Cork), Kazakhstan (Almaty, Nur-Sultan, Shymkent), Norway (Oslo, Stavanger, Bergen), Sweden (Stockholm, Gothenburg, Malmo), United Kingdom (London, Birmingham, Glasgow, Liverpool, Bristol, Manchester), Australia (Sydney, Melbourne, Brisbane, Perth, Adelaide), Indonesia (Jakarta, Surabaya, Bandung), Malaysia (Kuala Lumpur, Seberang Perai, Subang Jaya), New Zealand (Auckland, Wellington, Christchurch), Philippines (Quezon City, Manila, Caloocan City), Singapore, Thailand (Bangkok, Nonthaburi), Viet Nam (Hanoi), Hong Kong.

Customized copper conductor for best price and fast worldwide delivery

Copper conductors are commonly used in power transmission and distribution systems due to their excellent electrical conductivity, durability, and other desirable properties. Copper has been a preferred material for electrical conductors for many years. Here are some key aspects of copper conductors for power transmission and distribution:

Properties and Advantages: High Conductivity: Copper is an excellent conductor of electricity, and it has one of the highest electrical conductivities among common metals. This property allows for efficient power transmission with minimal energy loss.

Ductility and Malleability: Copper is highly ductile and malleable, making it easy to draw into thin wires. This flexibility is essential for manufacturing conductors with various sizes and lengths.

Durability: Copper is corrosion-resistant, which enhances the durability of the conductors. It can withstand harsh environmental conditions and maintain its electrical performance over an extended period.

High Melting Point: Copper has a relatively high melting point, contributing to its ability to handle high current loads without the risk of melting or deforming.

Good Thermal Conductivity: Copper has excellent thermal conductivity, allowing for effective heat dissipation in high-current applications. This property helps prevent overheating and ensures the stability of the electrical system.

Low Electrical Resistance: The low electrical resistance of copper minimizes power losses during transmission, making it an energy-efficient choice for power distribution.

Readily Available: Copper is abundant in nature and widely available, contributing to its cost-effectiveness and suitability for large-scale power infrastructure projects.

Applications: Power Lines and Cables: Copper conductors are extensively used in overhead power lines and underground cables for the transmission and distribution of electrical energy.

Transformers: Copper windings in transformers play a crucial role in transforming voltage levels between power generation and distribution.

Substations: Copper is used in busbars and other components within substations to facilitate the distribution and control of electrical power.

Electrical Equipment: Copper conductors are integral components in various electrical equipment, including switchgear, circuit breakers, and other devices used in power systems.

Renewable Energy Systems: Copper is employed in the wiring and interconnection of components in renewable energy systems such as solar panels and wind turbines.

High Voltage Applications: Due to its electrical and thermal properties, copper is suitable for high-voltage applications where efficient power transmission and heat dissipation are crucial.

Considerations: Cost: While copper is an excellent conductor, it can be more expensive than alternative materials like aluminum. However, its performance benefits often justify the cost.

Weight: Copper is denser than aluminum, leading to heavier conductors. This factor may be relevant in certain applications, such as overhead lines.

Jointing and Terminations: Proper jointing and termination methods are crucial to ensure the efficiency and reliability of copper conductors in power systems.

Copper conductors continue to be a preferred choice in power transmission and distribution systems, providing a balance of electrical performance, durability, and other desirable characteristics for efficient energy delivery.

Copper conductors for power transmission and distribution come in various types, each designed for specific applications and requirements. The choice of conductor type depends on factors such as the voltage levels, current carrying capacity, environmental conditions, and the specific needs of the power transmission and distribution system. Here are some common types of copper conductors used in power systems:

Stranded Copper Conductors: Description: Composed of multiple small strands of copper wire twisted or braided together. Application: Commonly used in overhead power lines and flexible applications where flexibility is crucial.

Solid Copper Conductors: Description: Single, solid copper wire. Application: Suitable for fixed installations and applications where flexibility is not a primary concern.

Bare Copper Conductors: Description: Uninsulated copper conductors without any outer covering. Application: Used in overhead power lines where insulation is provided by air, or in grounding systems.

Insulated Copper Conductors: Description: Copper conductors coated with an insulating material such as PVC (Polyvinyl Chloride) or XLPE (Cross-Linked Polyethylene). Application: Widely used in power cables for underground or enclosed installations, providing insulation to prevent short circuits.

Copper Busbars: Description: Flat strips or bars of copper used for conducting electric current within electrical equipment like switchgear and substations. Application: Efficient for distributing power within a confined space and for connecting various components in electrical systems.

6. High-Temperature Copper Conductors: Description: Copper conductors designed to withstand higher temperatures, often insulated with materials suitable for elevated temperature environments. Application: Used in applications where high temperatures are expected, such as industrial settings or near equipment generating significant heat.

Tinned Copper Conductors: Description: Copper conductors coated with a thin layer of tin. Application: Enhances corrosion resistance, making them suitable for marine and corrosive environments.

Flex Copper Conductors: Description: Flexible copper conductors designed to bend easily without breaking. Application: Ideal for applications where frequent bending or movement is required, such as in portable electrical tools or equipment.

Compact Stranded Copper Conductors: Description: Stranded conductors with a compact arrangement of strands, offering a higher current-carrying capacity. Application: Suitable for applications where a compact design is required without compromising on current-carrying capabilities.

Copper-Clad Aluminum (CCA) Conductors: Description: Aluminum conductors with a thin layer of copper cladding for improved conductivity. Application: Used in some applications where a balance between cost and conductivity is required.

Considerations: Voltage Rating: Conductor types may be designed for specific voltage levels, and it’s essential to use conductors suitable for the intended voltage.

Current Carrying Capacity: The design of the conductor should consider the expected current load to prevent overheating.

Environmental Conditions: Consideration of factors such as moisture, temperature, and chemical exposure when selecting insulated or bare conductors.

Flexibility: Applications with movement or bending requirements may necessitate the use of flexible conductors.

The selection of the appropriate type of copper conductor depends on a thorough understanding of the specific requirements and conditions of the power transmission and distribution system.

Copper conductors are widely used in power transmission and distribution for various applications due to their excellent electrical conductivity, durability, and versatility. Here are some common usages of copper conductors in power transmission and distribution systems:

Overhead Power Lines: Usage: Copper conductors are frequently used in overhead power lines to transmit electrical energy over long distances. Stranded copper conductors provide flexibility and strength to withstand environmental conditions.

Underground Power Cables: Usage: Insulated copper conductors are employed in underground power cables to distribute electricity in urban areas or regions where overhead lines are impractical or not aesthetically pleasing. The insulation protects the conductors from environmental factors.

Substation Busbars: Usage: Copper busbars are utilized in substations to distribute electrical power efficiently. Busbars made of copper provide low resistance and excellent conductivity, facilitating the transfer of high currents within the substation.

Transformers: Usage: Copper windings in transformers play a crucial role in stepping up or stepping down voltage levels. The high conductivity of copper ensures efficient energy transfer between primary and secondary windings.

Switchgear and Circuit Breakers: Usage: Copper conductors are integrated into switchgear and circuit breakers to facilitate the interruption and distribution of electrical currents. Copper’s excellent electrical conductivity ensures the reliable performance of these devices.

Distribution Lines: Usage: Copper conductors are employed in distribution lines to transmit electricity from substations to end-users. These lines can be overhead or underground, depending on the specific requirements of the distribution network.

Power Distribution Equipment: Usage: Various power distribution equipment, including distribution panels, junction boxes, and connection points, incorporate copper conductors for their superior electrical properties.

Renewable Energy Systems: Usage: Copper conductors are used in the wiring and interconnection of components in renewable energy systems, such as solar panels and wind turbines. Copper’s conductivity is essential for efficiently transferring the generated energy.

High Voltage Applications: Usage: Copper conductors are employed in high voltage applications, such as transmission lines and equipment in substations, where the ability to handle high currents and voltages is crucial.

Industrial Applications: Usage: Copper conductors are used in various industrial applications where reliable and efficient electrical transmission is required. This includes manufacturing processes, machinery, and industrial control systems.

Railway Electrification: Usage: Copper conductors are used in electrified railway systems to provide power to trains. Overhead wires and third rails often use copper for efficient energy transmission.

Elevators and Escalators: Usage: Copper conductors are used in the electrical systems of elevators and escalators, ensuring reliable and efficient power transmission for vertical transportation.

The versatile nature of copper conductors makes them suitable for a wide range of applications in power transmission and distribution systems, contributing to the overall efficiency and reliability of the electrical infrastructure.

According to IEC VDE DIN ANSI ISO IEEE standards, copper conductor is of the following type bare, hard drawn, soft annealed, tinned, compacted  and features high voltage, medium voltage, low voltage, manual and label, indoor use, outdoor use, wet weather conditions, antistatic, tested, electrostatic, certified, adjustable, insulated, insulating, composite, oil resistant, high quality.

Copper conductor and safe working environment

To ensure a safe working environment, use copper conductor in e-mobility, high voltage substation, medium voltage substation, low voltage substation, overhead power line, transformer substation, high voltage switchgear, medium voltage switchgear, low voltage switchgear, railway, subway, tramway, solar panels, hybrid car, batteries, cable, electrical sector, power plant, production, transport, energy transmission, energy distribution.

Buy online copper conductor save a lot of time and money

As a electrician, procurement, sales engineer, bidding engineer, design engineer, project manager, commissioning engineer, service engineer, operations engineer, safety manager, quality manager, electrical engineer, electrical engineer, automotive engineer, chemical engineer, electronics engineer, engineering department manager, environmental engineer, health and safety engineer, hydraulics engineer, industrial engineer, installation, repair, department manager, logistics engineer, materials engineer, mechanical engineer, planning engineer, production engineer, professional engineer, structural engineer, technical department manager, electrician welder, craftsman construction worker, installation worker, safety worker, procurement, purchasing, supervisor, foreman, commissioning engineer, skilled mechanics fitter, skilled electricians, non-skilled labor, electric engineer, you benefit from direct procurement, customized products, fast delivery, huge product variety, 24/7 stock, price, delivery time availability, 24/7 live chat in 6 languages, online order status, online shipment status, same operative system for all products, European high-quality products, environment-friendly products and make savings in procurement, project management, engineering, order execution, stock, shipment, customs duty, request for quotation, technical clarification, commercial clarification, negotiation, translation, manufacturer visit.

Order online copper conductor with worldwide fast shipping

Our customized copper conductor sourced from leading, European manufactures such as: NPA, FUX, FPE, Eltrim, Helukabel.

We ensure fast delivery of copper conductor to Bulgaria (Sofia, Plovdiv, Varna), Czech Republic (Prague, Brno, Ostrava), Hungary (Budapest), Netherlands (Amsterdam, Rotterdam, The Hague, Utrecht, Eindhoven), Poland (Warsaw, Kraków, Łódź, Wrocław, Poznań), Romania (Bucharest, Cluj-Napoca, Timisoara), Slovakia (Bratislava, Kosice), Ukraine (Kyiv, Kharkiv, Odesa, Dnipro), Bahrain (Manama, Riffa), Bangladesh (Dhaka, Chittagong, Khulna), Egypt (Cairo, Aswan, Luxor), Ghana (Accra, Kumasi, Tamale), India (Mumbai, Delhi, Bangalore), Iraq (Baghdad, Al-Mawsil, Al-Basrah), Kenya (Nairobi, Mombasa, Kisumu, Nakuru), Kuwait (Ḩawallī), Namibia(Windhoek, Rundu, Walvis Bay), Nigeria (Lagos, Kano, Ibadan, Kaduna), Oman (Muscat, Seeb, Salalah), Pakistan (Karachi, Lahore, Faisalabad), Qatar (Doha, Al Rayyan), Saudi Arabia (Riyadh, Jeddah, Makkah, Medina), South Africa (Cape Town, Durban, Johannesburg, Soweto), Tanzania (Dar es Salaam, Mwanza, Arusha), United Arab Emirates (Dubai, Abu Dhabi, Sharjah), Zambia (Lusaka, Kitwe), Croatia (Zagreb, Split, Rijeka), Greece (Athens, Thessaloniki, Patras), Israel (Jerusalem, Tel Aviv, Haifa), Turkey (Istanbul, Ankara, Izmir, Bursa), Canada (Toronto, Montreal, Calgary, Ottawa, Edmonton, Vancouver), USA (New York, Los Angeles, Chicago, Houston, Phoenix, Philadelphia, San Antonio, San Diego, Dallas, San Jose), China (Shanghai, Beijing, Guangzhou, Shenzhen, Chengdu, Chongqing), South Korea (Seoul, Busan, Incheon, Daegu), Taiwan (Taipei, Kaohsiung City, Taichung, Tainan City), Denmark (Copenhagen, Aarhus, Odense), Finland (Helsinki, Espoo, Tampere, Vantaa), Georgia (Tbilisi, Batumi), Ireland (Dublin, Belfast, Cork), Kazakhstan (Almaty, Nur-Sultan, Shymkent), Norway (Oslo, Stavanger, Bergen), Sweden (Stockholm, Gothenburg, Malmo), United Kingdom (London, Birmingham, Glasgow, Liverpool, Bristol, Manchester), Australia (Sydney, Melbourne, Brisbane, Perth, Adelaide), Indonesia (Jakarta, Surabaya, Bandung), Malaysia (Kuala Lumpur, Seberang Perai, Subang Jaya), New Zealand (Auckland, Wellington, Christchurch), Philippines (Quezon City, Manila, Caloocan City), Singapore, Thailand (Bangkok, Nonthaburi), Viet Nam (Hanoi), Hong Kong.