A collection of architectural, structural, and design management projects
across residential, public, industrial, and international sectors.
Our work spans schools, residential communities, industrial parks, high-rise towers, public facilities, and urban renewal projects. With expertise in multidisciplinary design, whole-process design management, and structural optimization, we deliver reliable, efficient, and technically rigorous solutions for clients in China and abroad.
CT05 & CT06 Mixed-use Development — Hanoi, Vietnam
GFA: ~900,000 sqm
Type: Mixed-use / Residential / Commercial
Role: Full-discipline design (Architecture + Structure + MEP)
Codes: Eurocode + Vietnam Standards
Scope of Work
• Full architectural, structural, and MEP construction design
• Structural system design for towers and podium
• Coordination across all disciplines
• Review and compliance with Vietnam local standards
Highlights
• Large-scale international development
• Multi-tower configuration with complex functional interfaces
• High coordination requirement between disciplines
Summary
PEASPER Engineering delivered full-discipline design for this large-scale mixed-use development in Hanoi. The project required comprehensive coordination across architecture, structure, and MEP while meeting both Eurocode and local Vietnam requirements. The team ensured design clarity, structural safety, and a fully coordinated set of construction drawings for a development of nearly one million square meters.
Kantharyar Center — Yangon, Myanmar
GFA: ~121,100 sqm
Type: Commercial & Office
Role: Structural Optimization
Codes: U.S. Standards
Scope of Work
• Structural system evaluation
• Lateral load optimization
• Long-span structural refinement
• Value engineering
Highlights
• Designed according to U.S. codes
• Large commercial complex in Southeast Asia
• Significant cost savings via VE
Summary
PEASPER Engineering provided structural optimization services for the Kantharyar Center in Yangon. The design team refined the lateral system, optimized structural member sizing, and improved overall seismic and wind performance based on U.S. structural codes. The optimization achieved better material efficiency while maintaining structural reliability.
New Energy Battery Manufacturing Plant — Ganzhou, China
GFA: ~121,100 sqm
Type: Industrial / Factory
Role: Structural Optimization
Year: 2022–2023
Scope of Work
• Structural system optimization for industrial plant
• Foundation and column grid refinement
• Steel consumption optimization
Highlights
• Large-span industrial structure
• Focus on cost reduction and efficiency
• Multi-building coordinated design
Summary
For this large-scale industrial plant manufacturing 18 million kVAh batteries per year, PEASPER Engineering optimized the structural system with an emphasis on industrial efficiency and construction feasibility. The optimization significantly reduced steel quantities and improved the structural layout while ensuring safety and serviceability.
Yuejing Bay Phases 1–5 — Shanwei, China
GFA: 1,026,900 sqm
Type: Residential + Commercial Complex
Role: Full Construction Drawings
Scope of Work
• Architectural, structural, and MEP construction drawing package
• Multi-phase large residential complex
• Technical coordination & construction support
Highlights
• Over 1 million sqm
• Multi-phase urban residential development
• High-density structural layout
Summary
PEASPER Engineering delivered full construction drawings for the 1.02-million-sqm Yuejing Bay development. The project required multi-phase coordination, complex functional planning, and reliable structural solutions to support large-scale residential and commercial components.
Luhu Technology Park — Longhua, Shenzhen
GFA: ~210,000 sqm
Type: Office / Hotel / Tech Park (High-rise)
Role: Super High-rise Structural Consulting + Construction Drawings
Year: 2024
Scope of Work
• Super high-rise structural consulting
• Seismic & wind load evaluation
• Full construction drawing package
• Multi-discipline coordination
Highlights
• Large high-rise tech campus
• Complex building functions including office + hotel
• Requirements for high coordination accuracy
Summary
PEASPER Engineering provided structural consulting and full construction documentation services for the 210,000-sqm Luhu Technology Park. The scope included high-rise structural system evaluation, wind/seismic performance checks, and complete multi-disciplinary coordination to ensure compliance and buildability.
Yango City · Houjie Tianyun Garden — Dongguan, China
GFA: 278,700 sqm
Type: Residential Development
Role: Full Construction Drawings (Architecture + Structure + MEP)
Design Period: 2020
Scope of Work
• Full architectural, structural, and MEP construction drawing package
• Technical coordination between design disciplines
• Structural system design and analysis
• Construction documentation and refinement
Highlights
• Large-scale high-density residential community
• Multi-building development with complex site layout
• High requirements for coordination and deliverable accuracy
• Efficient structural solutions tailored for rapid development cycles
Summary
PEASPER Engineering delivered the complete construction drawing package for the 278,700 sqm Tianyun Garden residential development in Houjie, Dongguan.
The scope included architecture, structure, and MEP documentation, ensuring full technical coordination and construction-ready detailing.
The team optimized building layouts and structural systems to support efficient construction and long-term safety performance.
South China Logistics Park Benefit-Balancing School — Longhua, Shenzhen
GFA: 70,000 sqm
Location: Minzhi Subdistrict, Longhua District, Shenzhen
Project Type: Educational Facility
Role: Preliminary Design (Architecture + Structure + MEP)
Design Period: 2024 – Present
Scope of Work
• Preliminary architectural, structural, and MEP design
• Site planning and functional layout development
• Structural scheme design for teaching buildings, gymnasium, and auxiliary facilities
• Technical coordination across disciplines
• Early-stage feasibility and compliance review
Highlights
• Large-scale public school within major logistics park redevelopment
• Complex circulation and functional zoning requirements
• Early-stage structural scheme evaluation
• Integration of educational standards & urban planning guidelines
• Multi-building campus requiring cross-disciplinary coordination
Summary
PEASPER Engineering is responsible for the preliminary design of the 70,000 sqm Benefit-Balancing School within the South China Logistics Park redevelopment in Longhua District, Shenzhen.
The team developed the architectural scheme, structural concept, and MEP layout while ensuring compliance with educational building standards and coordination across all disciplines.
This early-stage design establishes a clear foundation for subsequent construction documentation and efficient project execution.
Pinggang Middle School — Longgang, Shenzhen
GFA: 29,700 sqm
Location: Longgang District, Shenzhen
Project Type: Educational Facility
Role: Construction Document Design (Architecture + Structure + MEP)
Design Period: 2024 – Present
Scope of Work
• Full construction documentation across architecture, structure, and MEP
• Detailed structural design for teaching blocks, labs, administration areas, and sports facilities
• Compliance with educational building standards and local regulations
• Multi-disciplinary coordination to ensure constructability
• Technical refinement for site constraints and phased development
Highlights
• Mid-scale public school requiring high-quality detailing
• Multiple functional zones including classrooms, labs, library, sports spaces
• High coordination demands due to tight site conditions
• Focus on safe, efficient, and durable structural solutions
• Construction-ready documentation supporting smooth project execution
Summary
PEASPER Engineering is delivering the full construction document design for the 29,700 sqm Pinggang Middle School in Longgang District, Shenzhen.
The project covers architecture, structural engineering, and MEP design, with an emphasis on compliance, coordination, and construction feasibility.
The resulting documentation ensures that all disciplines are fully aligned, providing a reliable foundation for efficient and high-quality construction of this public educational facility.
Design Consulting
Centered on cost efficiency and supported by strong technical expertise, we provide a comprehensive suite of services including full-process technical consulting (resolving project-wide technical challenges), optimization consulting (addressing cost and structural efficiency issues), and detailed drawing review (ensuring accuracy, constructability, and compliance).
This integrated approach enables us to deliver a coordinated and cost-effective design management ecosystem for our clients.
Bihai Garden Shantytown Redevelopment Project — Bao’an, Shenzhen
GFA: 173,900 sqm
Location: Bao’an District, Shenzhen
Project Type: Residential Development
Role: Structural Overrun Report & Technical Review
Design Period: 2022
Scope of Work
• Preparation of structural overrun review report
• Comprehensive structural safety evaluation
• Compliance verification with local building codes
• Assessment of structural system, load paths, and lateral resistance
• Technical review and refinement of structural documentation
Highlights
• Large-scale residential redevelopment within an urban renewal zone
• Multiple residential towers with high-density planning
• Complex structural interfaces requiring careful review
• High standards for safety and code compliance
Summary
PEASPER Engineering conducted the structural overrun review and compliance assessment for the 173,900 sqm Bihai Garden Shantytown Redevelopment Project in Bao’an District.
The team evaluated the building’s lateral and vertical systems, verified compliance with Shenzhen and national structural standards, and provided detailed technical recommendations to ensure structural safety and construction feasibility.
The review strengthened design reliability and provided essential support for this major urban renewal development.
Huilongpu Community · Changjiang Cable Factory Urban Renewal Unit — Longgang, Shenzhen
GFA: ~150,000 sqm
Location: Longgang District, Shenzhen
Project Type: Residential Development / Urban Renewal
Role: Structural Overrun Report & Technical Review
Design Period: 2022
Scope of Work
• Structural overrun report preparation
• Comprehensive structural safety and stability evaluation
• Wind and seismic performance assessment
• Verification of lateral and vertical load-bearing systems
• Review of structural drawings and compliance with local codes
Highlights
• Urban renewal project with complex existing site conditions
• Multiple residential buildings with irregular layouts
• High-density development requiring detailed structural assessment
• Emphasis on safety, constructability, and regulatory compliance
Summary
PEASPER Engineering conducted the structural overrun review and technical assessment for the Changjiang Cable Factory Urban Renewal Unit in Huilongpu Community, Longgang District.
The scope included full structural evaluation, verification of load paths, wind and seismic resistance checks, and compliance review based on Shenzhen and national building codes.
The review ensured the structural system’s safety, robustness, and suitability for redevelopment within a densely planned residential district.
Taoyuan Subdistrict · Honghualing Industrial South Zone Renewal Unit — Nanshan, Shenzhen
GFA: 41.87 million sqm (as provided)
Location: Nanshan District, Shenzhen
Project Type: Industrial & Renewal Zone
Role: Structural Overrun Report & Technical Review
Design Period: 2024
Scope of Work
• Preparation of the structural overrun review report
• Comprehensive evaluation of building safety and structural performance
• Review of vertical and lateral load-bearing systems
• Wind and seismic performance assessment
• Verification of structural compliance with Shenzhen & national codes
• Technical refinement to support redevelopment planning and construction feasibility
Highlights
• Large-scale industrial renewal unit with significant redevelopment complexity
• Mixed-use industrial zone requiring cross-building structural assessment
• Focus on safety robustness and regulatory compliance
• Complex structural interfaces due to varying existing building conditions
Summary
PEASPER Engineering conducted the structural overrun review and technical assessment for the Honghualing Industrial South Zone Renewal Unit in Taoyuan Subdistrict, Nanshan.
The evaluation included full structural system analysis, wind and seismic resistance checks, and compliance verification across multiple industrial buildings within the renewal zone.
Through detailed technical review and refinement, the assessment ensured the structural safety, feasibility, and regulatory alignment required for this large-scale industrial redevelopment.
Dapeng New District Archives & Local Chronicles Museum — Dapeng, Shenzhen
GFA: 96,300 sqm
Location: Dapeng New District, Shenzhen
Project Type: Public Building
Role: Structural Overrun Report & Technical Review
Design Period: 2022
Scope of Work
• Preparation of structural overrun review report
• Full structural system evaluation
• Wind and seismic performance assessment
• Verification of structural layout, load paths, and lateral resistance
• Compliance review based on public building safety standards
• Technical refinement and documentation review
Highlights
• Large-scale government public building with strict safety requirements
• Complex functional zones including archives, exhibition spaces, and public service areas
• High structural safety standards due to archival storage functions
• Detailed performance evaluation for long-term durability & operational safety
Summary
PEASPER Engineering performed the structural overrun review and technical assessment for the 96,300 sqm Archives & Local Chronicles Museum in Dapeng New District.
The scope covered full structural system evaluation, wind and seismic resistance checks, and verification of compliance with public building codes and standards.
The review strengthened the reliability, safety, and constructability of the building, supporting the high functional requirements of an archival and public documentation facility.
Baishigang Urban Renewal Supporting School — Dapeng New District, Shenzhen
GFA: 370,000 sqm
Location: Dapeng New District, Shenzhen
Project Type: Educational Facility / Public School
Role: MRR (Major Revision Review)
Design Period: 2024
Scope of Work
• Major Revision Review (MRR) for the entire educational complex
• Structural system evaluation for teaching buildings, labs, administration, and sports facilities
• Review of vertical and lateral load-bearing systems
• Wind and seismic performance checks
• Verification of compliance with school building codes and public safety standards
• Technical refinement to support design stability and construction feasibility
Highlights
• Large-scale educational facility within a major urban renewal district
• Complex functional zoning requiring multi-building coordination
• Higher safety requirements due to public school standards
• Review focused on structural reliability, practicality, and long-term performance
• Ensures alignment with Shenzhen and national educational building regulations
Summary
PEASPER Engineering conducted the Major Revision Review (MRR) for the 370,000 sqm Baishigang Urban Renewal Supporting School in Dapeng New District.
The work included full structural evaluation, wind and seismic performance checks, and technical compliance review for all major teaching and auxiliary buildings.
Through detailed assessment and refinement, the MRR strengthened the safety, feasibility, and regulatory alignment of this large public school development, supporting smooth progression into subsequent construction stages.
Kingkey 100 Tower — Luohu, Shenzhen
GFA: 584,642 sqm
Site Area: 35,855 sqm
Demolished Existing Area: ~150,000 sqm
Height: 441.8 m
Floors: 100
Project Type: Super High-rise / Landmark Tower
Role: Structural Optimization & Technical Consulting
Scope of Work
• Structural optimization and economic analysis
• Comparative study of beam height & span configurations
• Finite element analysis (FEA) of long-span and cantilever nodes
• Global buckling analysis for large-span and cantilever components
• Floor serviceability & comfort verification under various layout schemes
• Cost–performance balancing, achieving significant material savings
Highlights
• Landmark 442 m tower in the core of Shenzhen CBD
• Complex super high-rise system requiring rigorous lateral performance evaluation
• Optimization achieved 20 million RMB in structural cost reduction
• In-depth FEA for critical nodes and cantilever zones
• Verified global stability and floor comfort through multiple scheme iterations
• Balanced stiffness, safety, and economic efficiency across competing design schemes
Technical Summary (High-End Version)
PEASPER Engineering provided comprehensive structural optimization and technical consulting services for the 441.8 m Kingkey 100 Tower—one of Shenzhen’s most iconic super high-rise buildings.
The consulting scope included a full economic comparison of structural schemes with varying beam depths and spans, enabling clients to choose the most material-efficient configuration without compromising performance.
Advanced finite element modeling was conducted on long-span and cantilevered components, assessing stress concentrations, deformation control, and node behavior.
Global buckling analysis was performed to ensure stability of the overall structural system, particularly in areas subjected to high lateral and vertical load interactions.
Multiple floor system layouts were evaluated for comfort, stiffness, and vibration control, ensuring serviceability while maintaining cost efficiency.
Through systematic optimization and rigorous technical evaluation, the project achieved over 20 million RMB in structural cost savings while maintaining the safety, stiffness, and performance requirements of a world-class super high-rise building.
Whole-Process Design Coordination Management
As part of our integrated design management system, we offer full-process coordination that aligns all disciplines into a single, controlled workflow.
Our methodology emphasizes technical clarity, efficient communication pathways, and risk-controlled decision-making throughout the design lifecycle.
Design General Contracting
Management System
Value
Efficiency
Schedule: Overall design cycle, design progress monitoring
Communication: Client, government budget, construction, subcontractors
Execution: Collaborative platform, design process standardization
Quality
Project: Multi-system, multi-perspective review
Construction: Standardized construction coordination process
Cost
Personnel: Balanced design resources
Project: Design within budget limits, dynamic control, lifecycle cost, change control
Resources
Subcontractor teams: On-demand selection and optimization
Management team: Specialized subcontract management
Strategy
Structure
General commander, general contracting design team, general contracting management team, individual project management staffing, clear project responsibilities for all positions
System
Plan management, communication management, quality management
Technology
Performance evaluation, cost management, digitalization, main and specialized works
Management
Schedule Management
Plan formulation: Integrated project schedule workflow sheet, decomposable project objectives into design solutions, three-level planning modules (client, general contractor, subcontractors)
Plan execution: Three-level plan control
Management specialists: Feishu · construction drawing workflow and staffing, schedule node dispatch and approval, information alerts
Plan adjustment and approval: Change approval authority, plan approval, adjustment rules, standard templates
Plan change system
Plan dispute resolution: Drawing/work completion node disputes, drawing quality disputes, design node disputes
Communication Management
Client, government, construction coordination
Quality Management
Four-party collaborative management
Quality System Certification
Drawing quality: Standardized technical measures + guidelines and strategies, construction drawing evaluation system, design standard library, process execution system, review center, online quality audit
Quality supervision: Multi-perspective review, third-party drawing review, key control standards
Construction Quality: Adequate design information transfer, standardized site procedures, material sample approval process, technical detailing approval process, client quality requirements
Cost Management
Cost control
Change control
Design within budget preparation
Dynamic control optimization
Reasonable design cycle