Possible Environmental Crises Facing Singapore and Appropriate Responses: The Case of the Poh Ern Shih Buddhist Temple

September 8, 2009
10:00 am	to	11:30 am

Venue: ISEAS Seminar Room II

Speaker: Mr Lee Boon Siong, Honorary President and Director, Poh Ern Shih Temple

The Poh Ern Shih Temple (Temple of Thanksgiving), built in 1954, is an ecologically friendly Buddhist temple located at Chwee Chian Hill, off Pasir Panjang Road, Singapore. In 2000, the Directors decided that the temple had to be redesigned to deal with the rising costs of water, electricity and an over-dependence on fossil fuel. It was noted that environmental degradation had been increasing over the decades and that adopting ecologically friendly technologies was the way to go in the age of rising global temperatures and climate change.

This seminar will focus on Poh Ern Shih Temple’s efforts to protect the environment. The temple takes advantage of Singapore’s abundant sunlight to produce: (i) Electricity by employing three different kinds of solar energy cells – Polycrystalline, Monocrystalline and Amorphous Cells (ii) Hotwater from Solar Heat Collector Cells in Solar Panels, and (iii) Night Lighting of its landscaping and common corridors with batteries charged by electricity collected from hybrid sets of wind/solar energy units.

Meanwhile, Singapore’s abundant rainfall has made it possible to (i) Irrigate the temple grounds (ii) Generate electricity via the deployment of Micro Hydrogenerators for charging the batteries of in-house motorized wheelchairs and lighting for its landscaping and common corridors as well as (iii) Conserve, collect and convert the rainwater to drinkable water by deploying Reverse Osmosis Techonology in Portable Filtration/UV Units available overseas in the event of natural disasters.

Finally, the temple is able to leverage on the abundance of a renewable resource, bamboo, (i) to reduce the culling of our valuable forests by deploying bamboo for all the temple’s new furniture wherever possible since it is readily available from neighbouring states and is a 5-year renewable resource as compared to a 100 year old or 300 year old oak or teak tree and (ii) to reduce the pollution from the steel industries, by making all its in-house new wheelchairs from bamboo.

For details and registration, visit the ISEAS website.

Source: ISEAS

China Sustainable Building Summit 2009

June 29, 2009

to

July 1, 2009

With support from World Green Building Council, UNEP SBCI and Purdue University, We IGVision will hold the China Sustainable Building Summit 2009 on June 29th to July 1st in Shanghai China, together with the Sustainable Building Expo during the same period. Overall we expect more than 300 high profile participants from property developers financiers, architects, designers, contractors, engineers, as well as building sustainability solution providers including technology and products vendors. Read more

Moss Greening to Curb Urban Heat Island Effect

Greening projects using moss have been conducted at many sites in Japan in recent years in order to deal with the heat-island effect (abnormal warming of the urban atmosphere due to the heat concentration). In addition to its features of absorbing carbon dioxide (CO2) outputs and lowering the surface temperature of buildings, a moss panel can be easily attached and does not require maintenance efforts. An increasing number of companies are using these panels for greening buildings.

Moss has various benefits: 1) it is easier to grow than grass; 2) it allows quick construction by using handy, light-weight panels; 3) maintenance is easy and watering is not required beyond collecting rainwater; 4) it allows the greening of rooftops, slanting surfaces and wall surfaces; 5) it absorbs large amounts of CO2; and 6) it provides insulation against heat and noise.

Green Alliance, a Japanese non-profit organization, has been promoting moss greening since 2006 by utilizing an exterior insulation greenery panel called “Woolly Moss.” It is a panel using “sunagoke” moss (rhacomitrium canescens) and “haigoke” moss (hypnum plumaeforme), as well as insulation materials made of carbonized corks and mudstones. Fifteen constructions have been performed to date and more are expected in the future. Similarly, another non-profit organization, Moss Green Eco, has been working to revitalize rural mountainous areas by producing moss in degraded lands, fallow fields or unused lands since 2007.

Source credit: Japan for Sustainability.

Green Buildings Asia – Discover Developments and Opportunities for Green Buildings and Sustainable Architecture in Asia

Buildings account for about 35% of greenhouse gas emissions, according to research by the World Green Buildings Council, and there is much scope to reduce the impact of buildings on climate change. Asia is stepping up to the challenge of promoting environmental sustainability for buildings, with more green building legislation and green building projects.

Green Buildings Asia 2008 will be held from 5 to 7 Nov at the Intercontinental Hotel, Singapore. This conference will help participants understand the issues, solutions and trends associated with green buildings and sustainable architecture in Asia. The speakers will give presentations on the following topics:

• Trends and Updates on Green Building Standards and Legislation in Asia
• Green Building Technology and Innovation: A Focus on Renewable Energy
• Understanding the Green Value of Real Estate and Marketing Excellence of Green Building
• Green Materials and Alternative Resources
• Achieving Zero Energy, Carbon Neutral and Zero Waste Cities
• The Future of Urban Planning
• Financial Schemes Surrounding Green Buildings
• Understanding the Integrated Real Estate Perspective to Green Investment
• Redevelopment and Retrofitting Excellence in Converting Existing Buildings to Green Buildings

Regional authorities, industry leaders and experts from the World Green Building Council, World Bank, Building and Construction Authority (BCA), National Environment Agency (NEA), Keppel Land and Jones Lang Lasalle will also share strategies, concepts, legislation and standards for green buildings.

There will also be case studies of green buildings such as:

• The World’s 2nd Carbon Neutral Airport: The Christchurch Airport
• Malaysia’s Zero Energy Building: Pusat Tenaga Malaysia
• The Sino-Tianjin Eco-City Development
• The Vancouver Millenium Water Olympic Village Project
• Green Mark Platinum Award: The Xilinx Building, Singapore

Green Buildings Asia is a must attend event for: architects, building developers, real estate companies, government officials, construction and engineering companies, facilities management companies, energy and green technology providers, banks and finance companies.

For more details and registration, pls contact:

Ms Rita Parasurum

Tel: +65 6835 5160

Fax: + 65 6733 5087

Email: rita.parasurum@ibcasia.com.sg

URL: www.ibc-asia.com/greenbuildings

AsiaIsGreen is the Official Media Partner of Green Buildings Asia 2008.

Event: Green Buildings Asia 2008

November 5, 2008

to

November 7, 2008

Green Buildings Asia 2008 will be held from 5 to 7 Nov at the Intercontinental Hotel, Singapore. This conference will help participants understand the issues, solutions and trends associated with green buildings and sustainable architecture in Asia. Regional authorities, industry leaders and experts from the World Green Building Council, World Bank, Building and Construction Authority (BCA), National Environment Agency (NEA), Keppel Land and Jones Lang Lasalle will share strategies, concepts, legislation and standards for green buildings. For more details and registration, pls contact:

Ms Rita Parasurum

Tel: +65 6835 5160

Fax: + 65 6733 5087

Email: rita.parasurum@ibcasia.com.sg

URL: www.ibc-asia.com/greenbuildings

Building a frugal society

Pan Jiahua, the vice-principal of the Center for Urban Development and Environment, Chinese Academy of Social Sciences, explains in ChinaDialogue how China can build a frugal society through sustainable architecture and buildings.

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Building a frugal society
Pan Jiahua

November 05, 2007

Adopting sustainable architecture will bring China great environmental gains with little effort, writes Pan Jiahua. If the country really wants to build a “frugal society”, this is how.

In building a frugal society, production, consumption, systems and culture are all important. But architecture is the factor which is most intimately linked to social production and people’s lives. The majority of residential buildings in China are built with low-quality materials, have a short lifespan, are energy-intensive and extremely wasteful of resources. By understanding the causes, realising the potential, taking action and constructing sustainable buildings, we can find a way out of this predicament. This will enable us to achieve maximum results with minimum effort as we look to establish a frugal society.

What is sustainable architecture?

The two main characteristics of sustainable architecture are permanence and low energy consumption.

While the volume of materials needed to construct any given area will not vary too much, differences in the quality of building materials can result in buildings having hugely differing lifespans. The Earth’s resources are limited, and fossil fuels are non-renewable. Bricks, steel and concrete used in buildings represent not only the consumption of materials, but also the energy that has gone into making them. Buying a home is the number one aim for most Chinese people – a home will be one’s largest expenditure and is where most of one’s savings are locked up. If high-quality building materials are used, and buildings would have a lifespan of 70 or even over 100 years, then we will be able to leave behind a significant amount of material and energy for future generations. This would bring not only a financial saving, but also would conserve resources. If low-quality building materials are used, however, and buildings have short lifespans, we will work all our lives to leave nothing behind for our children. And in terms of energy and natural resources, this is an enormous waste.

The other important aspect of sustainable architecture is low energy consumption. People need their homes within a comfortable temperature range, and in China there are large areas that need central heating in winter and air-conditioning in summer. Central heating and air-conditioning both require a direct consumption of energy which is regular and constantly flowing.

We can see that sustainable architecture requires not only that building materials be long-lasting, but also that they be able to maintain temperatures inside the building and not allow wasteful outflows of energy. Such materials, which guarantee residents’ quality of life, are extremely effective in limiting energy consumption, and are key to establishing a frugal society.

Barriers

The reform era, particularly in the last 10 years, has seen the demolition of old buildings – and the construction of new ones – on an unprecedented scale. But most of these new buildings are of inferior quality; they have a short lifespan and are high energy consumers. In any Chinese city you might care to name, you can see the large-scale demolition of buildings that break building regulations. According to statistics from the Beijing Environmental Bureau, 4.5 million square metres of illegal buildings were demolished in 2005; 3 million square metres of demolition are expected by the end of this year. If we assume that on average each person has 25 square metres of living space, this means demolishing buildings for 300,000 people in just two years.

The first reason for such extensive demolition is planning deficiencies. This means that the buildings had no overall plan, or there was an overall plan but no detailed plan, or plans existed but were not implemented. Particularly problematic is that under the current system, whenever a new group of government leaders comes into power, old plans are discarded for new, the effect of which is the same as having no plan at all.

The second reason is that there is no profit in building long-lasting buildings. Architecture should mean planning for 100 years into the future, but with the current political circumstances and property rights system causing uncertainty about the future – even five or 10 years from now – it is easy for investors and property developers to overlook buildings’s lifespan. China’s current building stock stands at over 40 billion square metres, and each year work is completed on another 2 billion, but the average lifespan of residential buildings is only 30 years. Reinforcing or refurbishing older buildings is less profitable than building from scratch, so older buildings are simply knocked down. It is interesting that with China’s rapidly transforming cities, not many traditional Chinese buildings are left standing, but European buildings built in China are almost all being retained.

Thirdly, the renewal of buildings in the countryside – home to 800 million people – is occurring at an even faster rate than in the cities. Here, even less attention is being paid to creating long-lasting buildings with low energy consumption. In the relatively developed areas of east China’s Zhejiang province, one can tell the ages of homes just by looking – almost none are more than 20 years old. When these structures are built, the concept of energy-saving homes barely enters into the equation. With the construction of China’s “New Socialist Countryside”, and the increase in rural residents’ living standards, the sustainability of rural buildings will become an even more prominent issue.

Fourthly, the fact that only the buildings’ appearance and main structure – not energy-saving capabilities – are taken into account in construction and consumption of residential buildings, means that huge amounts of energy are wasted in the home. Temperatures in south China can reach 40 degrees Celsius in summer, but double-glazing is almost never seen. Energy-saving features need to be considered when homes are still in the construction stage. The cost of installing such features later on is many times what it would be if they were built into the structures to start with.

Potential savings

Waste in building construction squanders China’s material resources, energy and manpower. So what potential savings could be made if the principles of sustainable architecture were put into practice?

In the UK, the average lifespan of a building is 132 years. Even some of New York’s skyscrapers have been standing for more than 100 years. If we assume that each person needs 50 square metres of building space (30 square metres for residential use, 20 square metres for commercial use), then China needs almost 70 billion square metres of building space. With the current average lifespan of buildings at 30 years, then that means 2.3 billion square metres of building space has to be replaced every year. In 2006, China’s steel consumption exceeded 400 million tonnes. Concrete consumption was over 1.4 billion tonnes, and energy consumption was the equivalent of 2.5 billion tonnes of coal. If the average building lifespan increased to 100 years, then China would only need to replace 700 million square metres of building space each year. We could also save 100 million tonnes of steel every year. The corresponding figures for potential savings in concrete, bricks, tiles and structural ceramics are even more astonishing.

Sustainable architecture also provides potential savings in energy consumed by heating and air conditioning. Only 10% to 15% of buildings constructed in China in recent years meet national energy-saving targets. Of the 40 billion square metres of urban buildings, 95% are classified as high energy consumers. Tests carried out in the city of Tianjin showed that residential compounds whose buildings met national standards could reduce energy used for heating by up to 30%. If all the buildings in Tianjin met energy-saving targets, 1 million tonnes of coal could be saved every winter. And even greater savings could be made in the summer, when air conditioning is used. Compared to Tianjin, most regions in the country have longer periods in the year when heating or air conditioning are used, but their quality of buildings is lower. Tianjin has a population of 10 million. Assuming that 1 billion people across the country use heating in winter or air conditioning in summer, a conservative extrapolation from the Tianjin figures means that if all buildings met national energy-saving standards, China could save at least 100 million tonnes of coal every year. But if improvements were made to buildings’ heat retention and plumbing, and the efficiency of heat generators was improved, energy consumed in heating north China’s buildings could be reduced by 60% to 70%. By 2020, the energy used in buildings in China will reach the equivalent of 1 billion tonnes of coal; a 30% reduction in energy use could lead to savings of 300 million tonnes of coal equivalent.

Promoting green building

Sustainable architecture needs to make use of systematic planning and implementation, market forces and research into science and technology in order to improve building lifespan and energy efficiency.

Large amounts of investment go into property; it is a durable commodity for families. Government policies need to take the long term into account, and focus on practical implementation. The legal status of real estate needs to be defined and must not be allowed to alter with changes in political leadership. Plans need to be detailed, and there needs to be an increase in transparency and practicality in planning. Secondly, real estate property rights need to be clarified, in particular the legal protection of these rights, and their degree of permanence. Only then can the permanence of architecture be respected by investors, building contractors, and those who use and own the buildings. Thirdly, the law needs to be strictly enforced. Where buildings break regulations, everyone involved should bear the legal responsibility. Currently, the only way of enforcing the law is though demolition, with tax-payers footing the bill.

Buildings are a commodity, and as such need to be subject to market regulations and incentives. Firstly, investors should not be offered high rates of discount or allowances for depreciation. In other countries, mortgages can be paid back over 35 years or even longer, since real estate is an immovable asset and durable commodity. If discount rates are low, then investors will take quality into account, and plan for the long term. Secondly, the market needs to be subject to greater supervision, inferior or counterfeit goods and shoddy workmanship need to be stamped out. Thirdly, consumers need to be provided with comprehensive information detailing lifespan of buildings and energy efficiency in order that they can make good purchasing decisions. Fourthly, waste and extravagant consumption need to be contained by using a price mechanism in tax collection. For example, if an individual’s electricity consumption from air conditioning exceeds a certain level, an energy tax could be levied. The use of clean energy sources like solar and geothermal power should be encouraged to fossil fuel consumption. Subsidies could also be used to encourage greater energy efficiency.

Sustainable architecture will be impossible without technological innovation. The lifespan of buildings must keep on being improved with technological advances in building design and materials. New building materials should be developed, which could hugely improve energy efficiency. Technological improvements in ventilation and central heating systems could guarantee supplies of fresh air without having to open windows and doors, which leads to energy loss. We also need to consider the reuse of building materials to reduce waste when older buildings are renewed.

Improving the lifespan and energy efficiency of buildings and implementing the concept of sustainable architecture could, with minimum effort, lead us towards the great gains of the “frugal society”.

Source: Pan Jiahua via ChinaDialogue.