2016 Sustainability Policies and Specific Guidelines
Policies and Guidelines on the Use and Conservation of Materials and Energy on Built Environment
Policy on the Use and Conservation of Materials and Energy on Built Environment
The University is committed to optimize the efficiency of the existing built environment by strictly following standards for energy-efficient and ecologically designed buildings in a tropical environment. As the University continues to expand, appropriate design and construction of projects will have to consider energy cost, energy usage, and emissions. The University is also dedicated to balance the built environment with a high degree of greenery and seamlessly connected walkways.
Guildelines on the Use and Conservation of Materials and Energy on Built Environment
Built Environment Structures
Procurement and Purchasing. New buildings/structures should incorporate Green Tropical Built Environment Principles:
Rainwater harvesting for dual-pipe systems or pico-hydroelectric systems
Roof orientation, roof design, and structural load to accommodate photovoltaic systems
Double envelope systems for improved insulation
Better window design for improved natural lighting and ventilation
Efficient control and design of lighting, incl. switches/bulb placement
Use of LED in external/ grounds lighting
Aerators for water taps
Septic tank effluent to have or be connected to sustainable wastewater treatment systems, such as the Integrated Sustainable Irrigation Systems (ISIS) and Decentralized Wastewater Treatment System (DEWATS)
Innovative, clean, and/or renewable technology to improve the efficiency of energy, water, and material use
Old buildings should be retrofitted according to these principles, when possible.
Usage and Maintenance. Spaces are properly utilized based on needs, functions (interrelationship), orientation, ventilation, acoustics, mobility, safety and security, and cost implications.
Waste Disposal. Waste materials should be disposed of after considering reuse, reduction, and recycling of materials, including those from demolished structures. The health and safety of stakeholders should be considered in waste management schemes. Different units are responsible for the disposal of their respectively generated waste:
Disposal of waste generated in the area of another unit
Regular disposal of hazardous waste c/o the Central Facilities and Management Office (CFMO)
Construction waste (c/o contractors, upon approval of CFMO)
Recycling of usable fixtures and furniture through different offices and units
Open grounds and roadways (mobility & transport)
Procurement and Purchasing. Grounds and pathways should incorporate sustainable design principles that encourage walkability:
Permeable pathways to allow water percolation
Perforated parking pavers and green parking lots
Ease and safety of navigation
Heavy duty roads
Usage and Maintenance. Grounds and pathways are used more efficiently, when the following are considered:
Conduciveness to walking, cycling, and shared transport
Regular maintenance of grounds and roadways
Smooth flow of traffic
Control of noise and air pollution
Waste Disposal. Road debris, yard waste, and tree maintenance are properly managed for better mobility:
Various forms of composting for biodegradable waste
Reuse of road debris for backfill and grounds improvement
In addition, the Philippine Institute of Volcanology and Seismology (PHIVOLCS) conducted an earthquake hazard assessment for the Loyola Heights campus in 2015. While all buildings are compliant with the National Building Code of the Philippines (NBCP), three older buildings identified in the hazard assessment report were retrofitted and reinforced to ensure better structural integrity. All buildings are annually checked to ensure continuous compliance with the NBCP. locations.