

A CPD certified programme that integrates core sustainability measures into buildings to align with global framework such as NDC’s and SDG’s. Make practical decisions for selecting the right green certification for your project such as LEED, WELL, EDGE, ESTIDAMA & MOSTADAM.
The course also focuses on coordination across multidisciplinary teams, helping professionals improve communication between design, client, and technical stakeholders while reducing rework and inefficiencies in project delivery.
Participants learn how interior design choices influence energy performance, thermal comfort, lighting quality, material impact, and water use — and how these decisions interact with building systems such as HVAC, lighting controls, and spatial planning.
By the end of the programme, participants will be able to:
Each evening builds on the last — from design thinking to hands-on decision-making.
Sustainable Design Thinking & Market Gaps
Sustainable Design Thinking & Market Gaps
Materials, Water & Circular Design
Decision-Making, Trade-offs & AI Integration
Inclusive of Training, Professional Examination, and One-Year License Fee
Up to 60% scholarship fee waiver available for residents of North, East and West Africa — sponsored by the Sustainable Green Environment Initiative.


Environas
Green Card Certification Platform
Designed for professionals involved in interior design and delivery, particularly on projects with sustainability requirements.
Interior Designers
Architects (Interior-focused)
Design Consultants
Project Coordinators
LEED / WELL / ESTIDAMA Professionals
Developers
Engineering Teams
CSIP is designed and delivered by Environas in collaboration with the Green Card Certification Platform.
A sustainability-focused built environment consultancy specialising in architecture, interiors, and environmental performance design.
A CPD-recognised professional learning and certification system supporting sustainability education and competency development.
CSIP is designed and delivered by Environas in collaboration with the Green Card Certification Platform.
ENVIRONMENTAL DESIGN
urban design
We design urban masterplans that offer equitable, efficient, and environmental friendly settings to their inhabitants. Our design objectives always considers the dialogue between the open spaces, green areas and optimized building layouts to improve the microclimatic conditions of the surroundings.
ENVIRONMENTAL DESIGN
Architecture Design
We apply passive design strategies for ventilation, cooling and heating through the interior elements of the project focusing on efficient lighting, acoustic, design energy performance calculations and green material selection and vegetation.
ENVIRONMENTAL DESIGN
interior design
We apply passive strategies for ventilation and mechanical cooling by designing the components of the space. This includes efficient lighting, acoustic material selection, energy performance calculations, the choice of green materials, and integrating vegetation.
ENVIRONMENTAL DESIGN
landscape design
Our outdoor space designs interweaves the beauty of materiality with local greenery to achieve the optimum landscaped solutions taking into consideration the water consumption from irrigation and the influence of the microclimate.
ENVIRONMENTAL ASSESSMENT
GREEN BUILDING
CERTIFICATIONS
We conduct EDGE, LEED, ESTIDAMA, MOTADAM, WELL…etc. and other green certifications energy simulations in buildings and urban areas to reduce the building operation costs from HVAC lighting, and electrical systems to avoids further environmental impacts.








ENVIRONMENTAL ASSESSMENT
post occupancy
evaluation
We study existing urban projects and buildings according to the microclimatic and user comfort analysis to diagnose problematic areas such as IAQ, OAQ, urban hotspots, thermal stress and discomfort. The evaluation reports are used to improve the investments of future projects through an optimum performance and sensible environmental impact provided through the ROI of the solutions provided.
ENVIRONMENTAL ASSESSMENT
micro climatic & Thermal comfort analysis
We conduct a CFD and thermal analysis for new urban areas, buildings and green spaces to detect high solar gains and wind flow patterns that informs the outdoor and indoor design. We predict thermal comfort inside buildings and in outdoor spaces to aid design narratives according to the optimum operation schedule and user’s analysis. Our design recommendations integrate the thermal, visual and/or acoustic parameters of each project.
ENVIRONMENTAL ASSESSMENT
LIFE CYCLE
ASSESMENT
We evaluate the environmental impacts on buildings across their entire lifespan, from construction to demolition. Focus is given to the resource use, energy consumption, emissions, and waste generation to promote sustainable design and construction practices, guiding decisions that minimize environmental footprint and enhance building performance.
ENVIRONMENTAL research
walkability
This track investigates various built environments according to their climatic conditions and urban parameters that defer walkability. Previous explorations hot cities in UAE and Egypt are used to develop guidelines for pedestrian friendly environmnets. The interconnectedness between the social and environmental parameters is used to signify urban design attributes needed to promote walking. Researches focuses on mainly three tracks, dynamic thermal sensation, the influence of the thermal conditions on human perception, and commercial viability of the area.
ENVIRONMENTAL DESIGN
Environmental Research Methodologies
The track focuses on utilizing various methods and techniques using digital and meteroelogical tools to explore the environmental parameters of the outdoor environments, the indoor environments and their relation. Microclimatic simulation, building performance tools, environmental monitoring data sets, AI and machine learning methods is used to develop workflows to tackle heatrise problems.
ENVIRONMENTAL research
climate change
This track aims to downscale the effects of climate change to a user and street level through analyzing thermal comfort scenarios at various climatic and microclimatic conditions.We analyze the past and future projections of the outdoor thermal comfort extracting the mitigation and/or adaptation strategies needed to fight the warming of cities. Researches focuses on thermal comfort and the built environment.