Below is the description the subject and aim of the Project titled „Thermomodernization of the building of the Courageous Crew of ORP “Orzeł” Secondary High School Complex no. 2 in Wejherowo”

THE SUBJECT OF THE PROJECT:

The building of the Courageous Crew of ORP “Orzeł” Secondary High School Complex no.2 in Wejherowo was built between 1904 and 1908 and requires immediate thermomodernization. Parts of the building, proposed for the this project, do not meet the basic energetic parameters. This results in severe losses of heat.

The school is maintained solely from the funds given each year by the County Office in Wejherowo. The amount of these funds does not allow to conduct thermomodernization by the school itself. Additionally, the thermomodernization state that is deteriorating each year result in considerable heating costs. Therefore, money that could have been spent in teaching aids are assigned to pay for the building’s maintenance. The realization of the project will not only reduce the heating losses in the building but will also, albeit indirectly, result in the increase of the quality of learning in the school complex.

THE OBJECTIVE OF THE PROJECT

The primary objective of the realization of this investment is to improve the state of the environment, decrease the economic and social disproportions in the country and, as a result, in the European Economic Area. The primary objectives will be realized through partial objectives: decrease of heat losses, improvement of education conditions, increase of the quality and effectiveness of education. The objectives will be achieved through thermomodernization of the building of the Secondary High School Complex no.2 in Wejherowo. The scope of the Project covered by this Feasibility Study will be realized within the area of the city of Wejherowo, situated in the Wejherowo municipality. The area of the Project’s influence, in the narrow sense, will concern the city of Wejherowo (thermomodernization if the building of the Secondary High School Complex no.2 in Wejherowo). In the broad aspect, as the Project will have a positive impact on the environment (decrease if hear losses → decrease of energy usage → decrease of heat energy production → decrease of pollutants emissions by the heating plant). The Project gains a transregional nature (environmental protection, tourism, education, etc.).

The decision to perform the Project has been done on the basis of the following factors:

  1. the age of the installation,
  2. the technical condition of the installation,
  3. adaptation of the building to meet the current requirements.

The detailed analysis of the factors was discussed in an energetic audit. The internal installation has a series of faults deriving from obsolete technical solutions and long term use. These are especially:

  1. the central bleeding network allows for water to circulate between the vertical heating pipes and hydraulically deregulates the installation,
  2. lack of adjustment results in lack of power in certain classrooms (the rooms are not properly heated),
  3. the existing radiator valves do not allow for adjusting the temperature in the rooms,
  4. the radiators are dirty inside and it results in the decrease of their ability to transfer heat, some started to corrode,
  5. the pipes are full of scaling, some started to corrode,
  6. the thermal insulation in the basement is in a bad technical condition, some fragments of thermal insulation are missing.

The Project aims to perform thermomodernization in the following manner:

  1. to thermally insulate the internal walls of the stair case of the attic, which is not heated, and there the air temperature is almost equal to the external temperature, that is 16ºC (calculated values of external air),
  2. to thermally insulate the ceiling of highest usable floor, that is the ceiling of the II floor with mineral wool 25cm thick, and also the ceiling over the gym. The sloped spaces of the attic there the Memorial Hall is situated will also be thermally insulated,
  3. to replace the old box single sash, single glazed windows with wooden windows with a heat coefficient of U=0,9 W/m2K
  4. to replace the old, ineffective heating installation with a common manifold, that has no heating circulation regulation, with an installation that has steel panel radiators, thermostatic valves, vertical heating pipes and individual heating circulation regulation and an automated hating manifold.

It is estimated that the result of the project will be the overall increase of the efficiency of the heating system. Therefore the need amount of energy consumed by the central heating system, taking into account the efficiency of the system and periods where heating is not needed, will drop from 6173GJ/year to 2289,43 GJ/year. It will positively impact the reduction of the CO2 emissions and other substances to the atmosphere. The CO2 emission will be decreases by 477,7 MgCO2/year.


DATA UPDATE 08.06.2016

After the tenders, that were a part of this project, have been resolved, some of the funds remained unspent and will be used by the Beneficiary as qualified expenses in accordance with the guidelines concerning qualified expenses that are part of the PL04 Operation Program „Energy conservation and energy sources promotion” as part of the European Economic Area Financing Mechanism 2009-2014”, which were specified in attachment no.4 of the Rules of the Competition to which the application no. 1310/2013 was submitted. Because of the above, the following tasks will be conducted as a part of the Project:

  1. Adding internal heat insulation of walls in the basement. Insulating plate 10 cm thick, surface of 565.73 m2
  2. Adding external heat insulation of walls in the basement embedded underground. Styrofoam 14 cm thick, surface of 573,172 m2
  3. Replacement of windows in the basement with wooden triple glazed: 10 units/9,6 m2 with heat coefficient of U = 0.9W/m2K
  4. Renovation of windows in accordance with the renovation works schedule, 15 units/36,59 m2 with heat coefficient of U = 2,6 W/m2K
  5. Renovation of doors in accordance with the renovation works schedule, with heat coefficient of U = 2,6 W/m2K. 8 units/39,105m2

It is estimated that the result of the project will be the overall increase of the efficiency of the heating system. Therefore the need amount of energy consumed by the central heating system, taking into account the efficiency of the system and periods where heating is not needed, will drop from 6002GJ/year to 2111GJ/year. . It will positively impact the reduction of the CO2 emissions and other substances to the atmosphere. The CO2 emission will be decreases by 478,61 MgCO2/year.

DATA UPDATE

We hereby inform that on 30.11.2016 an annex no. 2/966 was signed

Concerns:

Extending the range of financing of the project submitted as part of the procedure indicated in Art. 6.9 of the Regulation on introducing the EEA 2009 – 2014 Financing Mechanism – PROGRAM PL04, the Result: Energetic effectiveness.

Because of the above, the following tasks will be conducted as a part of the Project:

No.Range of worksAmountAdditional description

1.Replacement of internal lighting for an energy efficient variant - number/power [units/power]62618,03Replacement of internal lighting of the school building for an energy efficient variant (LED), in accordance with the project
2.Installation of photovoltaic panels (PV) - number/power [units/kW]6015Installation of photovoltaic panels in accordance with the project

1.Replacement of internal lighting for an energy efficient variant - number/power [units/power]2687,73Replacement of internal lighting of the school building for an energy efficient variant (LED), in accordance with the project
2.Installation of photovoltaic panels (PV) - number/power [units/kW]6015Installation of photovoltaic panels with an energy accumulator on the roof of the gym in accordance with the project

Description of the additional range of material scope

Modernization of the lighting installation in all buildings, that is the school building and the gym, in the range allowing for an intelligent control over the time of operation and lighting intensity. The result of the modernization will be a considerable reduction of the use of electrical energy and need for power that is needed for lighting purposes. The roof of the gym and the school building will be fitted with photovoltaic panels that will power the internal electrical installation and will work together with the energy accumulator. It will allow for the full use of produced power to cover our own needs. Replacement of the light sources for LEDs will greatly reduce electrical energy consumption. Introducing the ability to control the working time of lighting and its intensity will additionally decrease the use of energy. The fitting of photovoltaic installation will allow for using renewable sources of energy to cover our own use; adding an energy accumulator to this installation will allows to achieve partial independence from electrical energy supply provided by the local electrical company. The cost of energy supply and distribution will be greatly reduced. The end effect of both of those modernisations will be a reduction of greenhouse gasses emissions to the atmosphere. It is estimated that the realization of this project will decrease the emission of CO2 by 563,72 tons, that is by about 57%.

The change proposed will result in a decrease of CO2 emission to the do atmosphere by 563,72 Mg/year, that is by about 57% (the initial scope of the project resulted in the decrease of CO2 emissions by 478,61 Mg/year).

The changes will concern the target values of the following indicators of the results of the projects:

  1. OZE Number – increase by 1 unit
  2. Newly installed power of the OZE – increase by 0,03 MW
  3. Production of energy from renewable sources - increase by 27,63 MWh/year
  4. Number of building undergoing thermal modernization - increase by 1 unit

DATA UPDATE – 21.04.2017 IN ACCORDANCE WITH THE PROJECT REAZLIATION SCHEDULE

Concerns:

Extending the range of financing of the project submitted as part of the procedure indicated in Art. 6.9 of the Regulation on introducing the EEA 2009 – 2014 Financing Mechanism – PROGRAM PL04, the Result: Energetic effectiveness.

Because of the above, the following tasks will be conducted as a part of the Project:

No.Range of worksAmountAdditional description
1.Replacement of internal lighting for an energy efficient variant - number/power [units/power]69022,4Replacement of internal lighting of the school building for an energy efficient variant (LED), in accordance with the project
2.Installation of photovoltaic panels (PV) - number/power [units/kW]4612,88Installation of photovoltaic panels in accordance with the project
1.Replacement of internal lighting for an energy efficient variant - number/power [units/power]2047,1Replacement of internal lighting of the school building for an energy efficient variant (LED), in accordance with the project
2.Installation of photovoltaic panels (PV) - number/power [units/kW]7420,72Installation of photovoltaic panels with an energy accumulator on the roof of the gym in accordance with the project

Description of the additional range of material scope

Modernization of the lighting installation in all buildings, that is the school building and the gym, in the range allowing for an intelligent control over the time of operation and lighting intensity. The result of the modernization will be a considerable reduction of the use of electrical energy and need for power that is needed for lighting purposes. The roof of the gym and the school building will be fitted with photovoltaic panels that will power the internal electrical installation and will work together with the energy accumulator. It will allow for the full use of produced power to cover our own needs. Replacement of the light sources for LEDs will greatly reduce electrical energy consumption. Introducing the ability to control the working time of lighting and its intensity will additionally decrease the use of energy. The fitting of photovoltaic installation will allow for using renewable sources of energy to cover our own use; adding an energy accumulator to this installation will allows to achieve partial independence from electrical energy supply provided by the local electrical company. The cost of energy supply and distribution will be greatly reduced. The end effect of both of those modernisations will be a reduction of green house gasses emissions to the atmosphere. It is estimated that the realization of this project will decrease the emission of CO2 by 622,26 CO2 Mg/year.

The changes will concern the target values of the following indicators of the results of the projects:

  1. OZE Number – increase by 1 unit
  2. Newly installed power of the OZE – increase by 0, 0336 MW
  3. Production of energy from renewable sources - increase by 32,38 MWh/rok
  4. Number of building undergoing thermal modernization - increase by 1 unit

DATA UPDATE – 14.07.2017 IN ACCORDANCE WITH THE PROJECT REAZLIATION SCHEDULE

Concerns:

The end effect of both of those modernisations will be a reduction of greenhouse gasses emissions to the atmosphere. It is estimated that the realization of this project will decrease the emission of CO2 by 561,50 Mg/year.

Financed from the funds of the EEA 2009 – 2014 Financing Mechanism