Sustainability Analyst

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Team Work | Communication | Organization Skills | Self-Motivated
Vincent Kong – Sustainability Analyst

Estate Management Intern

Electrical Intern

HK PolyU (2017-2019)

MSc Environmental Design & Engineering

LWK+ Partner (2019)

Cundall (2020-2023)

To be continue

Housing Authority (2016)

Everlight (2018)

BEng Building Services Engineer

Assistant Architect

UCL (2019-2020)

ON, Canada

Sustainability Engineer

Life
Certification
Building Sustainability
Cycle Assessment
Services

Project experience – Industrial, commercial and institutional (ICI) sectors

Centre
Vehicle Examination Centre Retrofit - Sherlock Office Tower & Mall Georgia Tech Student
Due diligence & Benchmarking Incorporate Client ESG Policy Scorecard Initiation Cost-Benefit Analysis Review MultiDisciplinary Drawing Site Coordination Arrange Site Measurement Manage Submission With USGBC

Site Location & Transportation Analysis

Water Use & Harvesting

Calculation
Plan Material Selection Manage Site Measurement Issue Specification Innovation
Energy Modelling Waste Management
Mechanical & Electrical Design ASHRAE Lv2 Energy Audit Energy Monitoring, Accounting, Analysis Lifecycle Assessment Carbon Tracking and Reporting Daylighting Glare Thermal Comfort
Office tower w/ Mall Low rise Multi-family High rise Multi-family Higher Education Sport Arena Industrial Hospital Data Centre
Project experience – Central River Renovation Project, Shenzhen China

Design: 2021

Completion: 2022

Length: 550 m

Renovation Project

Sustainability consultation

Services:

- Life cycle carbon assessment

- Energy Modelling

- Renewable Energy System Installation

Achievement:

- Carbon Neutral

-

Placemaking

- Provide leisure to banker on weekday and family on weekend

- Smart City facilities are giant carbon emission source

- Greenery cannot discount all emission

- Carbon credit only led project to carbon neutral

408 TCO2e 174 TCO2e Emission Offset
Award-Winning Project experience – Treehouse, Hong Kong

Design: 2021

Site Area: 4,238 m2

Gross Floor Area: 94,144 m2

Office Floor Area: 2,100 m2 (30m x 70m)

Grade A Office

Net zero building at 2050

Services:

- Energy Modelling

- Sustainable Design

- Economic Analysis

Achievement:

-

-

-

-

EUI=51 kWh/m2

RIBA 2030 Targets

Embodied Carbon 342 kgCO2e/m2

LETI Grade A

Notional Scheme

Self-shading built form

-19%
SOLAR IRRADIANCE
-20% OPERATION
CARBON

Permeable - cooling & ↑ PV efficiency

Integrated wind chimney - get 2°C cooler air

Cross ventilation – avoid corridor AC

Avoid downwash

-5% OPERATION CARBON

-5% OPERATION CARBON

BIPV-integrated overhang

Daylight reflector

Tilted low-e glazing (Uf – 1.7 W/m2K, Ug – 1.0 W/m2K, SHGC – 0.26, VLT – 0.5)

Self-shaded facade

Lighting power density 6.4 -> 3.8W/m2

Outperformed regulated 10W/m2

Fullfil WELL standard

Blanket Design

Task Light Design

Minimise High Water Usage Operations In High / Mid Zones • PCM integrates with chiller plant • Seawater cooling

-30% OPERATION CARBON

EMBODIED
-15%
CARBON
Project experience – Multinational Contractor Firm, Hong Kong

-

-

Prepare for SBTi

Scope 1 & 2 setting

-

-

Carbon accounting

Engagement

Reduction potential

-

Forecast scope 1 & 2

emissions

- Gap analysis

-

High-level recommendation

BAU – Grid only Grid and Energy-saving measures

Forecasted GHG Emission and Reduction Percentage from 2021 to 2030 (Without Fire Extinguisher) - Hong Kong (Grid only)

Forecasted GHG Emission and Reduction Percentage from 2021 to 2030 (Without Fire Extinguisher) - Hong Kong (Grid and Energy-saving measures)

Scope 2 (Absolute) (kg CO2-e)

Scope 1 (Absolute) (kg CO2-e)

Total Scope 1 & 2 GHG reduction (compared with base year)

Scope 2 (Absolute) (kg CO2-e)

Scope 1 (Absolute) (kg CO2-e)

Total Scope 1 & 2 GHG reduction (compared with base year)

0% 0% -6% -13% -16% -20% -24% -28% -32% -36% -40.0% -35.0% -30.0% -25.0% -20.0% -15.0% -10.0% -5.0% 0.0%500,000.0 1,000,000.0 1,500,000.0 2,000,000.0 2,500,000.0 FY 2021 FY 2022 FY 2023 FY 2024 FY 2025 FY 2026 FY 2027 FY 2028 FY 2029 FY 2030 Scope 1 & 2 Intensity (kg CO2e/ft2) Scope 1 & 2 Absolute Emission (kg CO2e)
0% 0% -6% -8% -9% -11% -12% -14% -16% -17% -40.0% -35.0% -30.0% -25.0% -20.0% -15.0% -10.0% -5.0% 0.0%500,000 1,000,000 1,500,000 2,000,000 2,500,000 FY 2021 FY 2022 FY 2023 FY 2024 FY 2025 FY 2026 FY 2027 FY 2028 FY 2029 FY 2030 Scope 1 & 2 Intensity (kg CO2e/ft2) Scope 1 & 2 Absolute Emission (kg CO2e)
Academic experience – Zero Carbon B2E Office Building with RE-EVconnection

- Generation 123 kWh/m2 > Demand 112 kWh/m2

- Annual emission saving 50TCO2e

- Payback Period 13.4 yrs

- However, cost CAD$5M initial investment for Wind Turbine, Electric Vehicles

- Increased single point of financial failure

- Suggested using Green Finance with fund approach to reduce financial risk

- Fulfill green loan principal

- Reduced interest rate charged by bank

OEFev
Without EVs With EVs
Toronto, ON www.linkedin.com/in/vincentkckong kaichingkong@yahoo.com.hk

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