Selecting the right portable steel bridge for hydropower station construction requires careful evaluation tailored to Nepal’s unique geographical and climatic conditions. A portable steel bridge consists of prefabricated steel modules that can be rapidly deployed to span rushing mountain rivers, steep gorges, and rugged hilly terrain across Nepal. These bridges support heavy equipment and personnel, ensuring safe and continuous site access during hydropower station development in remote Nepalese watershed areas. Hydropower construction in Nepal frequently damages local narrow mountain roads and primitive river crossings, making portable steel bridges indispensable for maintaining site connectivity. Costly structural delays, safety failures, and budget overruns often occur without site-specific assessment for Nepal’s harsh alpine and monsoon environments, so informed decision-making is vital for hydropower project success.
Selecting the right portable steel bridge for Nepalese hydropower station construction begins with a thorough understanding of the country’s unique geographical and construction challenges. Most hydropower projects in Nepal are distributed across the Himalayan foothills, mid-hills, and southern river plain regions, featuring steep mountain slopes, narrow river valleys, unstable mountain soil, and dramatic seasonal water level variations driven by annual monsoons. Matching bridge configurations—including clear span, heavy load capacity, high shear structural design, and flexible modularity—to these Nepal-specific site constraints is essential for ensuring construction safety, operational efficiency, and cost-effectiveness.
Rapid deployment and strong environmental adaptability are critical for Nepalese hydropower projects. Construction schedules are extremely tight to avoid monsoon season interruptions, and temporary access routes often require frequent adjustments due to mountain landslides, river scouring, and terrain changes. Portable modular steel bridges perfectly adapt to these dynamic construction needs, providing stable temporary passage for ongoing hydropower development.
A comprehensive site assessment tailored to Nepal’s Himalayan landscape forms the foundation of successful portable steel bridge selection. Engineers must evaluate local mountain topography, loose sediment soil stability, seasonal river width fluctuations, rapid monsoon water flow surges, and high-altitude environmental characteristics. These core Nepalese site factors directly determine the optimal bridge span, lightweight foundation structure, anti-scour abutment design, and rapid installation method.
Most riverbanks for Nepalese hydropower sites feature steep, unstable slopes and loose gravel soil, which cannot support heavy traditional bridge foundations. Such terrain requires portable steel bridges with longer clear spans and reinforced anti-slip, anti-shear abutment structures to avoid foundation collapse and bank slippage. Mountainous construction sites often have rocky rugged ground or soft alluvial soil, which demands customized anchoring and anti-displacement systems for modular steel bridges.
Tip: Early engagement with local Nepalese geotechnical experts helps identify seasonal landslide risks, river scouring hazards, and soil instability problems, effectively reducing costly design modifications and reconstruction work during monsoon seasons.
Nepal’s remote mountainous hydropower areas lack large transportation vehicles and heavy construction machinery, creating strict logistics limitations. The terrain only allows small-tonnage trucks and manual or semi-mechanical assembly, making component portability a core selection indicator. Prefabricated steel bridges, such as the Bailey Bridge by Evercross Bridge, feature segmented lightweight modular designs that support segmented transportation on narrow mountain roads and rapid manual assembly, fully adapting to Nepal’s inaccessible construction environments. This high modularity allows flexible adjustment of bridge span and width to fit valley and river site constraints, minimizing construction delays caused by terrain limitations.
Clarifying the bridge’s functional positioning for Nepal’s hydropower construction is critical for determining the most suitable structural configuration. In Nepalese Himalayan hydropower projects, portable steel bridges undertake core temporary transportation tasks throughout the construction cycle, with key usage scenarios as follows:
Bailey portable steel bridges can achieve adjustable load capacities ranging from 20 to 100 tons through structural optimization and layered reinforcement, fully meeting the heavy-load transportation demands of Nepalese hydropower construction. Its unique structural advantages deliver outstanding value for Nepal’s complex environments:
Selecting a portable steel bridge that matches the geographical characteristics and long-term construction plans of Nepalese hydropower projects ensures maximum operational efficiency and site safety, minimizes construction downtime caused by terrain and climate factors, and provides reliable temporary infrastructure support for project delivery.
Selecting a qualified portable steel bridge for Nepalese hydropower station construction requires strict compliance with international safety standards and full consideration of local environmental and construction conditions. The following targeted selection criteria ensure stable and durable bridge performance under Nepal’s high-flow monsoon, mountain vibration, and humid high-altitude environments.
Structural strength and overall safety are the primary selection priorities. Portable steel bridges for Nepalese hydropower projects must withstand frequent dynamic loads from heavy construction machinery, mountain wind loads, and impact loads from rising river water and floating debris during monsoons. International standards including AASHTO and Eurocode provide standardized guidelines for load-bearing capacity, shear resistance, structural fatigue resistance, and overall bridge integrity, which are fully applicable to Nepal’s hydropower construction scenarios.
Evercross Bridge manufactures professional Bailey bridges using high-tensile shear-resistant steel and optimized anti-seismic, anti-scour structural designs tailored for mountain hydropower projects. All bridge products undergo rigorous static and dynamic load testing to meet or exceed international safety benchmarks, with enhanced shear resistance and structural stability for Nepal’s complex stress environments. Equipped with anti-skid deck surfaces, high-strength guardrails, and anti-loose connection accessories, the bridges effectively avoid safety hazards such as vehicle skidding and structural loosening caused by mountain road slopes and monsoon rains.
Note: Always require suppliers to provide complete structural calculation documents, shear resistance test reports, and international standard certification files to pass Nepalese engineering regulatory approval and ensure long-term operational safety.
Portability and rapid installation capabilities are core advantages that solve the pain points of Nepalese hydropower construction. Most project sites are located in remote Himalayan mountain areas with narrow winding roads, no large hoisting equipment, and extremely short dry-season construction windows. The fully prefabricated modular design of Bailey bridges perfectly adapts to these constraints.
Efficient rapid deployment effectively seizes Nepal’s dry-season construction window, avoids project delays and cost increases caused by monsoon shutdowns, and supports flexible adjustment of temporary access routes during phased hydropower construction.
Nepal’s hydropower construction areas feature high humidity, strong ultraviolet radiation, large day-night temperature differences, and perennial river water erosion, which easily cause steel bridge corrosion and structural aging. Therefore, material quality and environmental durability are key selection indicators.
High-tensile high-shear steel with an optimal strength-to-weight ratio is adopted to ensure the bridge bears heavy construction loads while adapting to weak mountain foundations. Evercross Bridge applies ISO-certified manufacturing processes and hot-dip galvanizing plus multi-layer anti-corrosion coating technology for all Bailey bridge components, effectively resisting humid air corrosion, river water erosion, and ultraviolet aging in Nepal’s alpine environment. Excellent durability greatly reduces seasonal maintenance frequency, extends bridge service life, and supports repeated reuse in multiple Nepalese hydropower projects.
Tip: Prior to procurement, request suppliers to provide material anti-corrosion specification sheets, climate adaptation test reports, and seasonal maintenance guidelines suitable for Nepal’s environment to guarantee long-term project value.
Hydropower project construction in Nepal requires strict compliance with local infrastructure construction specifications, environmental protection regulations, and international engineering safety standards. Portable steel bridges must meet unified load and safety standards to pass official project review and approval.
Evercross Bridge’s portable steel bridges are designed and manufactured in strict accordance with AASHTO and Eurocode standards, fully matching the safety specification requirements of Nepalese hydropower projects. The supplier can provide complete design certification, quality inspection reports, and environmental compliance documents, simplifying project approval procedures and avoiding costly construction delays due to non-compliant specifications.
Checklist:
Bridge selection for Nepalese hydropower construction cannot merely focus on upfront procurement prices. The total lifecycle cost includes initial procurement, mountain transportation, on-site customization, and long-term monsoon-season maintenance, anti-corrosion treatment, and secondary reuse value. Low-cost inferior bridges often suffer from corrosion, structural deformation, and insufficient shear resistance in Nepal’s harsh environments, requiring frequent repairs and even early replacement, resulting in higher comprehensive costs.
|
Cost Factor |
Initial Cost |
Long-term Cost |
|
Procurement |
✔️ |
|
|
Mountain Transportation & Customization |
✔️ |
|
|
On-site Delivery & Installation |
✔️ |
|
|
Seasonal Maintenance & Anti-corrosion Treatment |
✔️ |
|
|
Structural Durability & Anti-scour Performance |
✔️ |
|
|
Cross-project Reusability |
✔️ |
High-quality Evercross Bailey portable steel bridges effectively reduce total lifecycle costs for Nepalese hydropower projects. The modular structure supports free assembly, disassembly, and relocation, enabling repeated use in different hydropower sites across Nepal. High-strength anti-corrosion materials adapt to local humid and rainy climates, minimizing monsoon maintenance costs and ensuring long-term stable operation of the bridge.
Tip: Evaluate the total cost of ownership rather than the one-time purchase price. Prioritize bridge products with strong environmental adaptability and reusability to optimize the long-term budget of Nepalese hydropower projects.
Mountain transportation and on-site installation are major cost control points for hydropower projects in Nepal. Modular portable steel bridges adopt compact segmented packaging, which greatly reduces transportation difficulties and logistics costs on Nepal’s narrow mountain roads. Tool-free rapid assembly technology saves on-site labor costs and shortens the construction cycle, seizing the limited dry-season construction period.
In terms of maintenance, high-quality galvanized anti-corrosion structures adapt to Nepal’s rainy and humid climate, reducing rust and structural failure risks. Only simple regular cleaning and bolt inspection are required for daily maintenance, with no complex professional operations. Evercross Bridge provides localized maintenance guidelines and remote technical support tailored to Nepal’s environmental characteristics, helping construction teams complete daily maintenance efficiently.
Most project errors stem from ignoring Nepal’s highly variable mountain terrain and monsoon climate characteristics. Many project teams apply conventional flatland bridge selection standards, resulting in insufficient bridge span, poor foundation adaptability, and weak flood resistance. During monsoon seasons, river water level surges, bank scouring, and small-scale landslides often cause bridge deformation, foundation displacement, and forced construction shutdowns, bringing huge economic losses.
Tip: Conduct a full-cycle site survey covering dry and rainy seasons, cooperate with local Nepalese geological teams, and fully document river flow changes, soil stability, and terrain risks to formulate targeted bridge selection schemes.
|
Nepal Site Factor |
Core Impact on Bridge Selection |
|
Seasonal river width & flow variation |
Determines safe bridge span and flood clearance height |
|
Unstable mountain slope soil |
Requires lightweight, low-pressure foundation design |
|
Monsoon flood & floating debris impact |
Demands high shear resistance and anti-scour structural design |
Many suppliers lack practical experience in Nepal’s Himalayan mountain hydropower scenarios, only providing standard flatland bridge products. Such products often fail to adapt to local terrain and climate, resulting in poor structural stability and short service life. Choosing inexperienced suppliers and neglecting warranty terms will lead to unresolvable on-site technical problems and unplanned maintenance costs.
Evercross Bridge has rich practical experience in mountain hydropower projects in South Asia and Nepal, providing comprehensive warranty services and targeted technical support adapted to local environments.
Some project teams underestimate the impact of Nepal’s high humidity and heavy rainfall on steel bridges, neglecting seasonal anti-corrosion maintenance and bolt tightening inspections. Long-term exposure to humid mountain air and river water will cause steel corrosion, connection loosening, and reduced load-bearing capacity, inducing potential safety hazards and shortening bridge service life.
The first step is to screen professional portable steel bridge suppliers with mountain hydropower project experience. Focus on verifying their project performance in Nepal and South Asian high-altitude mountain scenarios, production capacity, and international standard compliance. Compare core product indicators including modular span range, heavy load grade, shear resistance performance, and environmental adaptability. Prioritize suppliers that can provide targeted customized solutions for Nepal’s terrain and climate.
On-site technical support is crucial for successful bridge deployment in Nepal’s complex environments. Select suppliers that provide full-cycle engineering services from scheme design, terrain adaptation customization, on-site installation guidance to post-operation maintenance. Evercross Bridge provides personalized customized solutions for Nepalese hydropower projects, including long-span valley crossing bridges, flood-resistant river crossing bridges, and light-duty pedestrian and heavy-duty vehicle dual-purpose bridges, fully meeting diverse construction needs.
Verify supplier capabilities through real mountain hydropower project cases. Modular steel bridges have been widely applied in multiple hydropower construction projects in Nepal, solving key problems such as blocked mountain passages and difficult heavy equipment transportation. Rapid deployment in flood seasons and reusable characteristics have effectively guaranteed project construction progress and reduced comprehensive costs.
Selecting the right portable steel bridge for hydropower station construction requires careful evaluation tailored to Nepal’s unique geographical and climatic conditions. A portable steel bridge consists of prefabricated steel modules that can be rapidly deployed to span rushing mountain rivers, steep gorges, and rugged hilly terrain across Nepal. These bridges support heavy equipment and personnel, ensuring safe and continuous site access during hydropower station development in remote Nepalese watershed areas. Hydropower construction in Nepal frequently damages local narrow mountain roads and primitive river crossings, making portable steel bridges indispensable for maintaining site connectivity. Costly structural delays, safety failures, and budget overruns often occur without site-specific assessment for Nepal’s harsh alpine and monsoon environments, so informed decision-making is vital for hydropower project success.
Selecting the right portable steel bridge for Nepalese hydropower station construction begins with a thorough understanding of the country’s unique geographical and construction challenges. Most hydropower projects in Nepal are distributed across the Himalayan foothills, mid-hills, and southern river plain regions, featuring steep mountain slopes, narrow river valleys, unstable mountain soil, and dramatic seasonal water level variations driven by annual monsoons. Matching bridge configurations—including clear span, heavy load capacity, high shear structural design, and flexible modularity—to these Nepal-specific site constraints is essential for ensuring construction safety, operational efficiency, and cost-effectiveness.
Rapid deployment and strong environmental adaptability are critical for Nepalese hydropower projects. Construction schedules are extremely tight to avoid monsoon season interruptions, and temporary access routes often require frequent adjustments due to mountain landslides, river scouring, and terrain changes. Portable modular steel bridges perfectly adapt to these dynamic construction needs, providing stable temporary passage for ongoing hydropower development.
A comprehensive site assessment tailored to Nepal’s Himalayan landscape forms the foundation of successful portable steel bridge selection. Engineers must evaluate local mountain topography, loose sediment soil stability, seasonal river width fluctuations, rapid monsoon water flow surges, and high-altitude environmental characteristics. These core Nepalese site factors directly determine the optimal bridge span, lightweight foundation structure, anti-scour abutment design, and rapid installation method.
Most riverbanks for Nepalese hydropower sites feature steep, unstable slopes and loose gravel soil, which cannot support heavy traditional bridge foundations. Such terrain requires portable steel bridges with longer clear spans and reinforced anti-slip, anti-shear abutment structures to avoid foundation collapse and bank slippage. Mountainous construction sites often have rocky rugged ground or soft alluvial soil, which demands customized anchoring and anti-displacement systems for modular steel bridges.
Tip: Early engagement with local Nepalese geotechnical experts helps identify seasonal landslide risks, river scouring hazards, and soil instability problems, effectively reducing costly design modifications and reconstruction work during monsoon seasons.
Nepal’s remote mountainous hydropower areas lack large transportation vehicles and heavy construction machinery, creating strict logistics limitations. The terrain only allows small-tonnage trucks and manual or semi-mechanical assembly, making component portability a core selection indicator. Prefabricated steel bridges, such as the Bailey Bridge by Evercross Bridge, feature segmented lightweight modular designs that support segmented transportation on narrow mountain roads and rapid manual assembly, fully adapting to Nepal’s inaccessible construction environments. This high modularity allows flexible adjustment of bridge span and width to fit valley and river site constraints, minimizing construction delays caused by terrain limitations.
Clarifying the bridge’s functional positioning for Nepal’s hydropower construction is critical for determining the most suitable structural configuration. In Nepalese Himalayan hydropower projects, portable steel bridges undertake core temporary transportation tasks throughout the construction cycle, with key usage scenarios as follows:
Bailey portable steel bridges can achieve adjustable load capacities ranging from 20 to 100 tons through structural optimization and layered reinforcement, fully meeting the heavy-load transportation demands of Nepalese hydropower construction. Its unique structural advantages deliver outstanding value for Nepal’s complex environments:
Selecting a portable steel bridge that matches the geographical characteristics and long-term construction plans of Nepalese hydropower projects ensures maximum operational efficiency and site safety, minimizes construction downtime caused by terrain and climate factors, and provides reliable temporary infrastructure support for project delivery.
Selecting a qualified portable steel bridge for Nepalese hydropower station construction requires strict compliance with international safety standards and full consideration of local environmental and construction conditions. The following targeted selection criteria ensure stable and durable bridge performance under Nepal’s high-flow monsoon, mountain vibration, and humid high-altitude environments.
Structural strength and overall safety are the primary selection priorities. Portable steel bridges for Nepalese hydropower projects must withstand frequent dynamic loads from heavy construction machinery, mountain wind loads, and impact loads from rising river water and floating debris during monsoons. International standards including AASHTO and Eurocode provide standardized guidelines for load-bearing capacity, shear resistance, structural fatigue resistance, and overall bridge integrity, which are fully applicable to Nepal’s hydropower construction scenarios.
Evercross Bridge manufactures professional Bailey bridges using high-tensile shear-resistant steel and optimized anti-seismic, anti-scour structural designs tailored for mountain hydropower projects. All bridge products undergo rigorous static and dynamic load testing to meet or exceed international safety benchmarks, with enhanced shear resistance and structural stability for Nepal’s complex stress environments. Equipped with anti-skid deck surfaces, high-strength guardrails, and anti-loose connection accessories, the bridges effectively avoid safety hazards such as vehicle skidding and structural loosening caused by mountain road slopes and monsoon rains.
Note: Always require suppliers to provide complete structural calculation documents, shear resistance test reports, and international standard certification files to pass Nepalese engineering regulatory approval and ensure long-term operational safety.
Portability and rapid installation capabilities are core advantages that solve the pain points of Nepalese hydropower construction. Most project sites are located in remote Himalayan mountain areas with narrow winding roads, no large hoisting equipment, and extremely short dry-season construction windows. The fully prefabricated modular design of Bailey bridges perfectly adapts to these constraints.
Efficient rapid deployment effectively seizes Nepal’s dry-season construction window, avoids project delays and cost increases caused by monsoon shutdowns, and supports flexible adjustment of temporary access routes during phased hydropower construction.
Nepal’s hydropower construction areas feature high humidity, strong ultraviolet radiation, large day-night temperature differences, and perennial river water erosion, which easily cause steel bridge corrosion and structural aging. Therefore, material quality and environmental durability are key selection indicators.
High-tensile high-shear steel with an optimal strength-to-weight ratio is adopted to ensure the bridge bears heavy construction loads while adapting to weak mountain foundations. Evercross Bridge applies ISO-certified manufacturing processes and hot-dip galvanizing plus multi-layer anti-corrosion coating technology for all Bailey bridge components, effectively resisting humid air corrosion, river water erosion, and ultraviolet aging in Nepal’s alpine environment. Excellent durability greatly reduces seasonal maintenance frequency, extends bridge service life, and supports repeated reuse in multiple Nepalese hydropower projects.
Tip: Prior to procurement, request suppliers to provide material anti-corrosion specification sheets, climate adaptation test reports, and seasonal maintenance guidelines suitable for Nepal’s environment to guarantee long-term project value.
Hydropower project construction in Nepal requires strict compliance with local infrastructure construction specifications, environmental protection regulations, and international engineering safety standards. Portable steel bridges must meet unified load and safety standards to pass official project review and approval.
Evercross Bridge’s portable steel bridges are designed and manufactured in strict accordance with AASHTO and Eurocode standards, fully matching the safety specification requirements of Nepalese hydropower projects. The supplier can provide complete design certification, quality inspection reports, and environmental compliance documents, simplifying project approval procedures and avoiding costly construction delays due to non-compliant specifications.
Checklist:
Bridge selection for Nepalese hydropower construction cannot merely focus on upfront procurement prices. The total lifecycle cost includes initial procurement, mountain transportation, on-site customization, and long-term monsoon-season maintenance, anti-corrosion treatment, and secondary reuse value. Low-cost inferior bridges often suffer from corrosion, structural deformation, and insufficient shear resistance in Nepal’s harsh environments, requiring frequent repairs and even early replacement, resulting in higher comprehensive costs.
|
Cost Factor |
Initial Cost |
Long-term Cost |
|
Procurement |
✔️ |
|
|
Mountain Transportation & Customization |
✔️ |
|
|
On-site Delivery & Installation |
✔️ |
|
|
Seasonal Maintenance & Anti-corrosion Treatment |
✔️ |
|
|
Structural Durability & Anti-scour Performance |
✔️ |
|
|
Cross-project Reusability |
✔️ |
High-quality Evercross Bailey portable steel bridges effectively reduce total lifecycle costs for Nepalese hydropower projects. The modular structure supports free assembly, disassembly, and relocation, enabling repeated use in different hydropower sites across Nepal. High-strength anti-corrosion materials adapt to local humid and rainy climates, minimizing monsoon maintenance costs and ensuring long-term stable operation of the bridge.
Tip: Evaluate the total cost of ownership rather than the one-time purchase price. Prioritize bridge products with strong environmental adaptability and reusability to optimize the long-term budget of Nepalese hydropower projects.
Mountain transportation and on-site installation are major cost control points for hydropower projects in Nepal. Modular portable steel bridges adopt compact segmented packaging, which greatly reduces transportation difficulties and logistics costs on Nepal’s narrow mountain roads. Tool-free rapid assembly technology saves on-site labor costs and shortens the construction cycle, seizing the limited dry-season construction period.
In terms of maintenance, high-quality galvanized anti-corrosion structures adapt to Nepal’s rainy and humid climate, reducing rust and structural failure risks. Only simple regular cleaning and bolt inspection are required for daily maintenance, with no complex professional operations. Evercross Bridge provides localized maintenance guidelines and remote technical support tailored to Nepal’s environmental characteristics, helping construction teams complete daily maintenance efficiently.
Most project errors stem from ignoring Nepal’s highly variable mountain terrain and monsoon climate characteristics. Many project teams apply conventional flatland bridge selection standards, resulting in insufficient bridge span, poor foundation adaptability, and weak flood resistance. During monsoon seasons, river water level surges, bank scouring, and small-scale landslides often cause bridge deformation, foundation displacement, and forced construction shutdowns, bringing huge economic losses.
Tip: Conduct a full-cycle site survey covering dry and rainy seasons, cooperate with local Nepalese geological teams, and fully document river flow changes, soil stability, and terrain risks to formulate targeted bridge selection schemes.
|
Nepal Site Factor |
Core Impact on Bridge Selection |
|
Seasonal river width & flow variation |
Determines safe bridge span and flood clearance height |
|
Unstable mountain slope soil |
Requires lightweight, low-pressure foundation design |
|
Monsoon flood & floating debris impact |
Demands high shear resistance and anti-scour structural design |
Many suppliers lack practical experience in Nepal’s Himalayan mountain hydropower scenarios, only providing standard flatland bridge products. Such products often fail to adapt to local terrain and climate, resulting in poor structural stability and short service life. Choosing inexperienced suppliers and neglecting warranty terms will lead to unresolvable on-site technical problems and unplanned maintenance costs.
Evercross Bridge has rich practical experience in mountain hydropower projects in South Asia and Nepal, providing comprehensive warranty services and targeted technical support adapted to local environments.
Some project teams underestimate the impact of Nepal’s high humidity and heavy rainfall on steel bridges, neglecting seasonal anti-corrosion maintenance and bolt tightening inspections. Long-term exposure to humid mountain air and river water will cause steel corrosion, connection loosening, and reduced load-bearing capacity, inducing potential safety hazards and shortening bridge service life.
The first step is to screen professional portable steel bridge suppliers with mountain hydropower project experience. Focus on verifying their project performance in Nepal and South Asian high-altitude mountain scenarios, production capacity, and international standard compliance. Compare core product indicators including modular span range, heavy load grade, shear resistance performance, and environmental adaptability. Prioritize suppliers that can provide targeted customized solutions for Nepal’s terrain and climate.
On-site technical support is crucial for successful bridge deployment in Nepal’s complex environments. Select suppliers that provide full-cycle engineering services from scheme design, terrain adaptation customization, on-site installation guidance to post-operation maintenance. Evercross Bridge provides personalized customized solutions for Nepalese hydropower projects, including long-span valley crossing bridges, flood-resistant river crossing bridges, and light-duty pedestrian and heavy-duty vehicle dual-purpose bridges, fully meeting diverse construction needs.
Verify supplier capabilities through real mountain hydropower project cases. Modular steel bridges have been widely applied in multiple hydropower construction projects in Nepal, solving key problems such as blocked mountain passages and difficult heavy equipment transportation. Rapid deployment in flood seasons and reusable characteristics have effectively guaranteed project construction progress and reduced comprehensive costs.
पता
कमरा 403, नंबर 2 बिल्डिंग, नंबर 269 टोंगक्सी रोड, चांगनिंग जिला, शंघाई, चीन
टेलीफोन
86-1771-7918-217