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PISTACHIO SHELL HEATED CITY

Hakan

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GAZIANTEP
— Turkey has gone out to tender to build its first ecological city where public buildings could be heated by burning pistachio shells, the abundant local product in the country's southern Antep region.

The ambitious project will be founded within five years in a 3,200-hectare area between Gaziantep and Kilis province on Turkey's border with Syria.

French environmental engineering firm Burgeap discovered in December 2013 that Antep pistachio shells – with its 19.26 calorific value per kilo – are the most feasible local energy source in the province.

Burgeap now claims that this caloriferic value is considerable, and would be enough to provide heating and cooling for 55 hectares of public buildings.

A final report on the project's viability is to be presented to the Gaziantep Metropolitan Municipality next month.

According to the UN Food and Agriculture Organization, Turkey ranks third in the world for Antep pistachio production. This type of pistachio takes its name from Gaziantep; the city's original name was Antep but the Turkish parliament bestowed the name Gazi '(War Veteran)' on the era during the country's 1920s independence struggle.

Speaking to Anadolu Agency, energy manager of Gaziantep Metropolitan Municipality, Aysegul Tekerekoglu, said the city would use a variety of energy-saving systems like green roofs, solar power, waste management and rainwater collection.

Tekerekoglu said the local authorities will examine the French firms' report before deciding whether to go ahead with the project, which would then be scheduled for completion within 12 months with a budget of 600,000 euros.

- Green technology producing a surplus of power

Gaziantep also hosts an experimental ecological house which is pursuing a number of international awards.

Built in September 2013 the 320-meter property features thick walls with 40 centimeter, triple-glazed windows and 'green roof' – all designed to increase energy efficiency.

Pipes laid underground circulate fresh air in the house, helping to cool it in the summer and heat it in the winter by taking advantage of the earth's temperature.

"The Earth's temperature is three degrees cooler in the summer and warmer in the winter. But increasing or decreasing the temperature by one degree causes seven percent energy waste, which means our house makes a 21 percent energy saving through using these air pipes," Tekerekoglu claimed.

The house also produces its own electricity through the photovoltaic panels placed in the yard, leading to an surplus production of power.

The house also saves energy by purifying gray water and collecting rainwater. The grey water purifying system sends the waste water to reservoirs, while rain waters are collected and used to irrigate the yard.

The ecologic house with its integrated power generation, heating, cooling, airing, waste water management systems provide a model for those who want to buy land and build in the planned Ecologic City.

Right after it was built, it applied for recognition from the Germany's Passive House Institute, an independent research body that has played an crucial role in the development of houses with minimum carbon emissions and energy consumption.

PHI distributes the only internationally recognized certificate for performance-based energy standard in construction.

When built, the ecologic house also applied to U.S. Green Building Council's LEED Platinum certificate, which is the most widely recognized and used green building program across the globe.

Tekerekoglu said the project was confident of expecting to receive both the LEED Platinium and German Passive House certification.

Asked about the possibly high cost of building ecologic houses, Tekerekoglu said, such systems pay for themselves in energy savings within around five years.

These projects are becoming increasingly important in Turkey; the country imports around 75 percent of its energy according to 2012 data from the Turkish Statistical Institute.

Data has suggested that individuals can save 50 to 70 percent energy by applying ecologic systems in their houses, corresponding to an annual saving of between $5-6 billion nationwide.

Despite years of warnings against burning natural resources for energy, this remote Turkish city is proving that by burning its most abundant crop it is leading the way in environmental awareness and green technology.

Turkish 'eco-city' will be heated by pistachio shells | Energy | Daily Sabah
 
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1397723256026.jpg
GAZIANTEP — Turkey has gone out to tender to build its first ecological city where public buildings could be heated by burning pistachio shells, the abundant local product in the country's southern Antep region.

The ambitious project will be founded within five years in a 3,200-hectare area between Gaziantep and Kilis province on Turkey's border with Syria.

French environmental engineering firm Burgeap discovered in December 2013 that Antep pistachio shells – with its 19.26 calorific value per kilo – are the most feasible local energy source in the province.

Burgeap now claims that this caloriferic value is considerable, and would be enough to provide heating and cooling for 55 hectares of public buildings.

A final report on the project's viability is to be presented to the Gaziantep Metropolitan Municipality next month.

According to the UN Food and Agriculture Organization, Turkey ranks third in the world for Antep pistachio production. This type of pistachio takes its name from Gaziantep; the city's original name was Antep but the Turkish parliament bestowed the name Gazi '(War Veteran)' on the era during the country's 1920s independence struggle.

Speaking to Anadolu Agency, energy manager of Gaziantep Metropolitan Municipality, Aysegul Tekerekoglu, said the city would use a variety of energy-saving systems like green roofs, solar power, waste management and rainwater collection.

Tekerekoglu said the local authorities will examine the French firms' report before deciding whether to go ahead with the project, which would then be scheduled for completion within 12 months with a budget of 600,000 euros.

- Green technology producing a surplus of power

Gaziantep also hosts an experimental ecological house which is pursuing a number of international awards.

Built in September 2013 the 320-meter property features thick walls with 40 centimeter, triple-glazed windows and 'green roof' – all designed to increase energy efficiency.

Pipes laid underground circulate fresh air in the house, helping to cool it in the summer and heat it in the winter by taking advantage of the earth's temperature.

"The Earth's temperature is three degrees cooler in the summer and warmer in the winter. But increasing or decreasing the temperature by one degree causes seven percent energy waste, which means our house makes a 21 percent energy saving through using these air pipes," Tekerekoglu claimed.

The house also produces its own electricity through the photovoltaic panels placed in the yard, leading to an surplus production of power.

The house also saves energy by purifying gray water and collecting rainwater. The grey water purifying system sends the waste water to reservoirs, while rain waters are collected and used to irrigate the yard.

The ecologic house with its integrated power generation, heating, cooling, airing, waste water management systems provide a model for those who want to buy land and build in the planned Ecologic City.

Right after it was built, it applied for recognition from the Germany's Passive House Institute, an independent research body that has played an crucial role in the development of houses with minimum carbon emissions and energy consumption.

PHI distributes the only internationally recognized certificate for performance-based energy standard in construction.

When built, the ecologic house also applied to U.S. Green Building Council's LEED Platinum certificate, which is the most widely recognized and used green building program across the globe.

Tekerekoglu said the project was confident of expecting to receive both the LEED Platinium and German Passive House certification.

Asked about the possibly high cost of building ecologic houses, Tekerekoglu said, such systems pay for themselves in energy savings within around five years.

These projects are becoming increasingly important in Turkey; the country imports around 75 percent of its energy according to 2012 data from the Turkish Statistical Institute.

Data has suggested that individuals can save 50 to 70 percent energy by applying ecologic systems in their houses, corresponding to an annual saving of between $5-6 billion nationwide.

Despite years of warnings against burning natural resources for energy, this remote Turkish city is proving that by burning its most abundant crop it is leading the way in environmental awareness and green technology.

Turkish 'eco-city' will be heated by pistachio shells | Energy | Daily Sabah

Interesting...But do you guys have that much pistachio shells?! :unsure:

Why do you need triple glazed windows? Is it that cold? even in UK, a common house has double glazed!

How does this work:

The house also produces its own electricity through the photovoltaic panels placed in the yard, leading to an surplus production of power.

The house also saves energy by purifying gray water and collecting rainwater. The grey water purifying system sends the waste water to reservoirs, while rain waters are collected and used to irrigate the yard.

How about using biofuels of other type like burning other waste from the house instead of throwing it like organic wastes?
 
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Interesting...But do you guys have that much pistachio shells?! :unsure:

Why do you need triple glazed windows? Is it that cold? even in UK, a common house has double glazed!

How does this work:

The house also produces its own electricity through the photovoltaic panels placed in the yard, leading to an surplus production of power.

The house also saves energy by purifying gray water and collecting rainwater. The grey water purifying system sends the waste water to reservoirs, while rain waters are collected and used to irrigate the yard.

How about using biofuels of other type like burning other waste from the house instead of throwing it like organic wastes?
2014-04-17-09-47-28.jpg


I cant answer your last question.:cray:
 
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The house also produces its own electricity through the photovoltaic panels placed in the yard, leading to an surplus production of power.

Photovoltaic panels are installed on the roof and produces electricty via sunlight.

Photovoltaics - Wikipedia, the free encyclopedia

Solar_panels_on_house_roof_winter_view.jpg


The house also saves energy by purifying gray water and collecting rainwater. The grey water purifying system sends the waste water to reservoirs, while rain waters are collected and used to irrigate the yard.

There are two types of waste water in buildings Grey water and Black water.

Black Water, is the waste water coming from toilets, you won't purify them
Grey water, is can be collected from Shower drains, faucets, rain water. You can purify them and use them in reservoirs of toilets also can be used in gardens.

How about using biofuels of other type like burning other waste from the house instead of throwing it like organic wastes?

You'll spend more energy to process them into bio-fuel than you'll gain by burning them. Not feasable.

Why do you need triple glazed windows? Is it that cold? even in UK, a common house has double glazed!

Not related with outside temperature much. Concept is insulating the building as much as you can do. So you will spend less energy to heat it up.
 
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Photovoltaic panels are installed on the roof and produces electricty via sunlight.

Photovoltaics - Wikipedia, the free encyclopedia

Solar_panels_on_house_roof_winter_view.jpg
O I misread

produces its own electricity through the photovoltaic panels placed in the yard,
though this is saying yard...


There are two types of waste water in buildings Grey water and Black water.

Black Water, is the waste water coming from toilets, you won't purify them
Grey water, is can be collected from Shower drains, faucets, rain water. You can purify them and use them in reservoirs of toilets also can be used in gardens.
O I see

You'll spend more energy to process them into bio-fuel than you'll gain by burning them. Not feasable.
You sure? why soo much research in that sector?


Not related with outside temperature much. Concept is insulating the building as much as you can do. So you will spend less energy to heat it up.
I see! But wont it become burning hot in summer?
 
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O I misread

though this is saying yard...


O I see

You sure? why soo much research in that sector?


I see! But wont it become burning hot in summer?

It will keep the cold air in the house if the house has ac.
 
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hough this is saying yard...

Can be placed in the yard, if you have. :)

see! But wont it become burning hot in summer?

In summers, buildings gains most of it's heat from, windows with radiation, if you use reflective windows you would eliminate most of the heat that you can gain.

So it will cost more extract power from house hold waste products but pistachio shell is also a waste product, right?

yeap but you don't need to process them, you can just burn them... but i'm not sure if this is a efficient way or not.... i would like to see some technical research but i couldn't find any.
 
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yeap but you don't need to process them, you can just burn them... but i'm not sure if this is a efficient way or not.... i would like to see some technical research but i couldn't find any.

Well you dont need to process organic wastes...you can burn them just like pistachio but am not sure if it is efficient and what about the pollution level?

Wouldnt it be better each household burns their own organic waste and utilizes it as heat rather than the govt doing it and then making pipes to channel the heat?
 
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Well you dont need to process organic wastes...you can burn them just like pistachio but am not sure if it is efficient and what about the pollution level?

Wouldnt it be better each household burns their own organic waste and utilizes it as heat rather than the govt doing it and then making pipes to channel the heat?[/quote]

Which organic waste are we talking about ? Go and burn all of your trash, it won't give you one hours of heating for your house. Also pollution will be a serious issue.

Also i'm past households waste. Just compare pistachio's kcal/h value with natural gas.

Pistachio: 19.26 kcal/kg
Natural gas: 20000 btu/lb = 11,110 kcal/kg

Fuel Gases - Heating Values
 
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Wouldnt it be better each household burns their own organic waste and utilizes it as heat rather than the govt doing it and then making pipes to channel the heat?

Which organic waste are we talking about ? Go and burn all of your trash, it won't give you one hours of heating for your house. Also pollution will be a serious issue.

Also i'm past households waste. Just compare pistachio's kcal/h value with natural gas.

Pistachio: 19.26 kcal/kg
Natural gas: 20000 btu/lb = 11,110 kcal/kg

Fuel Gases - Heating Values
pistachio shells are organic waste...meaning left overs from food you eat...My question was what makes pistachio shells different from other organic waste?

And is that value of energy from the shells or from the pistachio as a whole?
 
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