Laserfiche WebLink
1 �� <br />1�� <br />1 �B <br />7�� <br />1�a <br />�11 <br />��� <br />��� <br />��� <br />��� <br />11� <br />11� <br />11� <br />11� <br />1�� <br />1�1 <br />1 �� <br />7�� <br />12� <br />1�� <br />rt�6 <br />1�� <br />��$ <br />12� <br />130 <br />1�� <br />1 �2 <br />1 �3 <br />13� <br />7 �� <br />1�� <br />��� <br />1�8 <br />13� <br />1 �}� <br />1 �'I <br />��� <br />1�3 <br />��� <br />1� i <br />4�� <br />��� <br />��� <br />��� <br />��� <br />1,51 <br />152 <br />15� <br />� 5� <br />1�� <br />7 �� <br />h �� <br />��� <br />��� <br />2. <br />3. <br />The feasibilitystudy shall include a conceptual design for a system at the <br />Indoor Ice Arena to include the following items: <br />a. <br />b. <br />c. <br />d. <br />e. <br />f. <br />9• <br />h. <br />Potential of replacing the existing refrigeration plant with a system <br />that can provide refrigeration along with the complete heat recovery <br />for use in space conditioning and service water heater <br />Potential of replacing the rink floor with a"thermal storage floor" to <br />reduce the refrigeration system operating costs <br />Potential for replacing the mechanical dehumidification system with a <br />system that can utilize the refrigeration system for removing moisture <br />and reheat the air in the ice area <br />Potential of using alternate energy sources to store excess energy <br />from the refrigeration system and reduce or eliminate the need for <br />fossil fuels in the building, as well as the potential for using the <br />excess energy in other nearby facilities <br />Estimated costs associated with the installation of the above <br />recommended system components <br />Estimated energy cost savings that may be realized if the <br />recommended components are installed <br />Estimated reduction of greenhouse gases that may be realized with <br />the installation of the recommended components <br />The quality and recovery time for ice specificationsfor the varying <br />sport uses. <br />The feasibilitystudy shall include a conceptual design for a system for the <br />possible future conversion of the OVAL to include the following items: <br />a. <br />b. <br />c. <br />d. <br />e. <br />Potential of replacing the existing refrigeration plant with a system <br />that can provide refrigerationfor the existing rink along with the <br />complete heat recovery for use in space conditioning and service <br />water heater <br />Potential of using alternate energy sources to store excess energy <br />from the refrigeration system and reduce or eliminate the need for <br />fossil fuels in the building, as well as the potential for using the <br />excess energy in other nearby facilities <br />Estimated costs associated with the installation of the above <br />recommended system components <br />Estimated energy cost savings that may be realized if the <br />recommended components are installed <br />Estimated reduction of greenhouse gases that may be realized with <br />the installation of the recommended components <br />The quality and recovery time for ice specificationsfor the varying <br />sport uses. <br />4. The feasibility study may include the conceptual analysis of the HVAC <br />needs for the entire City Hall Campus, including the City Hall Facility, <br />Public Works Facility and Fire Station 1. This portion of the study will <br />include enough information to determine any future viability and payback <br />of a phased conversion to alternate energy for all facilities. This portion <br />of the study will be completed if funds are available and will only be an <br />addition to the project, not a stand alone project. This study will include <br />the following items: <br />a. Investigation of the current use and operation of the buildings and <br />site analysis <br />