Brown gold: Treated sewage could heat one-third of Prague - a report from - www.themayor.eu and another from - www.danfoss.com

 

Brown gold: Treated sewage could heat one-third of Prague

After all, this is one energy resource that is literally inexhaustible and domestically produced

The City of Prague has plans to develop a new residential district for 25,000 people on a hundred-hectare brownfield in Bubny-Zátory. This time around though, urban planning is taking into account current crises, such as fossil fuel dependency and energy security, to offer an innovative solution – using treated sewage surplus heat to keep homes warm in winter.

For this purpose, a new energy centre will be built next to the wastewater treatment plant on Císařský island and near the planned district. The idea behind it is simple, install 12 heat pumps and channel the heat where it can be of benefit – 200,000 households.

Don’t let heat go to waste, let waste go for heating

“The (energy centre) project has been in the making for about two years. It uses the heat of wastewater that is treated on Císařsky island. Every second, three cubic meters of treated wastewater leave the treatment plant, which even in the coldest months has a temperature higher than ten degrees. We have a huge opportunity to use this water to obtain heat for up to a third of Prague. It has been working successfully for decades in Denmark or Sweden, and there is no reason why it should not be the same here. Moreover, sewage is the only raw material that Prague will always have enough of," stated Petr Hlaváček, 1^st Deputy Mayor of Prague, as quoted by Prazsky Patriot.

The Bubny-Zátory area sits on a peninsula formed by a bend of Prague’s Vltava River and thus enjoys a fairly central location that has been unutilized for decades. The development, however, apart from granting more housing units has the unique chance to serve as the platform for new future-proof solutions, making it a model district in terms of sustainability.

The first housing units in the residential quarter will be ready by 2025, though the entire district will be completed by 2040. The jewel of the new district will be the upcoming Vltava Philharmonic, which too will be heated and cooled with this sustainable approach.

Here is another report from: www.danfoss.com

Since 2010, Marselisborg wastewater treatment plant has transformed its focus beyond minimizing energy consumed, to maximizing net energy surplus. Nowadays the facility has net production of both electricity and heat, supplying the district heating system in Denmark’s second-largest municipality, Aarhus. The carbon footprint has been reduced by 35 % accordingly.

Water and wastewater treatment facilities are normally the single largest electricity consumer for a municipality. Typically water and wastewater treatment processes account for 25 – 40 % of the municipal electricity consumption. The high consumption is related to the energy intensive processes but also its continuous operation cycle, 24/7 and 365 days annually.

Over the years focus has been on developing new processes and control strategies to reduce energy consumed per litre of water processed. However at the same time the increasing demands upon wastewater treatment quality, for example in nutrient removal, in turn increase net energy consumption.

Energy balance optimization 
Water and wastewater treatment processes are characterized by high load variation during the 24 hour cycle and seasonally throughout the year. The use of frequency converters has therefore steady increased in order to control blowers, pumps and other motorized equipment, to adapt to the changing demand.

Since 2010 Aarhus Water has worked intensively together with water environment consultants to improve the energy balance for Marselisborg wastewater treatment plant.

Key steps in the strategy:

• Optimization of the nitrogen removal process using online sensor control. The frequency converter adapts the level of aeration precisely to the need. This control system reduces energy consumption and increases the amount of carbon left in the system.
• Blower technology upgrade to a high speed turbo blower. The upgrade achieves further reduction of energy consumption in the aeration process.
• Aerobic sludge age control as a function of temperature and load on the plant. Here frequency converter control of the return sludge pumps is the key to achieving energy reduction and increased retained carbon in the system.
• Upgrade of combined heat and power (CHP) process for energy production, with 90 % energy efficiency.

These changes together with improvements including the effective co-production of electricity and heat based on methane gas extracted from the aerobic sludge digestion process have created the impressive results of:

• 130 % electricity production (30 % excess electricity)
• Excess heat production of about 2.5 GWh/year

VLT® in every corner

Frequency converters are installed on almost all rotating equipment at Marselisborg WWTP: blowers, pumps, mixers and dewatering pumps. The frequency converters allow the plant to adapt to load variations, with maximum flexibility. Over 100 motors are controlled by VLT® frequency converters at Marselisborg.

Energy generation vision

The vision for Aarhus City is to extend energy generation even further, to achieve surplus production of energy from its wastewater treatment plants so high, that it can also meet the energy requirement of the city’s potable water supply. This will transform the single largest electricity consumer for the authority into an energy-neutral party.