Paula Ala-Kotila scite author profile

Paula Ala-Kotila

4Publications

17Citation Statements Received

124Citation Statements Given

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114

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VTT Technical Research Centre of Finland

Publications

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Demand Response in District Heating Market—Results of the Field Tests in Student Apartment Buildings

Ala-Kotila

Vainio

Heinonen³

2020

Smart Cities

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This article presents the field test of the developed demand response system installed in the central heating systems of existing apartment buildings. The buildings are occupied by students and located in Tampere, Finland, which is within the northern climate zone. The studied buildings are connected to the local district heating network. The presented demand response system takes into account weather forecasts, indoor temperatures and decreases in space heating temperatures when demand for domestic hot water is the highest. The owner of the buildings benefits from peak demand control and can save in fixed fees. If enough buildings would have this kind of demand response control system, there would be a decreased need for utility companies to use peak power plants that typically use fossil fuels for heat production. In this field test, the peak load decrease was 14%–15% on average. During the test, the heating period of February and March, the normalized energy consumption of eight buildings was reduced by 11%, which represents a 9% annual cut in energy, costs and greenhouse gas emissions. Demand Response (DR) heating aims to help in reaching the objectives of the National Energy and Climate Strategy for 2030.

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The Influence of Building Renovations on Indoor Comfort—A Field Test in an Apartment Building

2020

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This article presents a field test of how deep renovation affects indoor climate quality. The studied apartment building was built in 1968 and is located in Finland, within the Nordic climate zone. The deep renovation included façade repair with extra insulation, new windows with trickle vents, new balcony glass and doors, and the installation of an exhaust air heat pump into the existing mechanical exhaust air ventilation. The indoor climate conditions and building envelope tightness were measured before and after the renovation. As a result of these energy renovation measures, the building envelope tightness improved by nearly 40% and the uncontrolled supply of air (draughts) decreased by approximately 24%. The overall energy consumption of the building decreased by 45%. Above all, the long testing period gives credibility to the study. The field test brought up the challenge of supplying an adequate amount of fresh air. This article highlights the fact that windows are part of a mechanical ventilation system if fresh air is not controlled by being led through inlet ducts. The supply air flow and volume must be ensured by correctly dimensioned valves, and therefore we stress the importance of the technical cooperation of technical designers.

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Multifamily building energy retrofit comparison between the United States and Finland

Pelsmakers

Vainio

et al. 2022

Energy and Buildings

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Life City—A Climate-Conscious Concept for Smart and Sustainable Built Environment

Rönty

Ala-Kotila

Holopainen

2018

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Paula Ala-Kotila

Demand Response in District Heating Market—Results of the Field Tests in Student Apartment Buildings

The Influence of Building Renovations on Indoor Comfort—A Field Test in an Apartment Building

Multifamily building energy retrofit comparison between the United States and Finland

Life City—A Climate-Conscious Concept for Smart and Sustainable Built Environment

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