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HomeMy WebLinkAboutschematic narrative and drawingAlaska Energy Engineering LLC 25200 Amalga Harbor Road Tel/Fax: 907.789.1226 Juneau, Alaska 99801 alaskaenergy@earthlink.net SCHEMATIC NARRATIVE for Haines Assisted Living Facility Ground Source Heat Pump System 1.1 INTRODUCTION A. The following narrative provides a conceptual description of a ground source heat pump system for the Haines Assisted Living Facility in Haines, Alaska. The narrative is an attachment to an Alaska Energy Authority grant application. Items specific to Section 4.3.1 of the grant application can be found in the following locations: 1. A description of renewable energy technology specific to project location: Section 1.3. 2. Optimum installed capacity: Section 1.4A and Section 1.5B. 3. Anticipated capacity factor: Not applicable 4. Anticipated annual generation: Not applicable. 5. Anticipated barriers: None 6. Basic integration concept: Entire narrative. 7. Delivery methods: Section 1.4. B. A schematic diagram of the proposed ground source heat pump system is attached. 1.2 DESCRIPTION A. System: The Haines Assisted Living will consist of two similar buildings. The heating system for each building will be a ground source heat pump system (GSHP). The system will consist of a closed-loop vertical well field, a ground loop pumping system that moves heat between the ground and the building, and water-source heat pumps that produce hydronic heating water and domestic hot water. B. Performance: The system will supply heat at a coefficient of performance (COP) of 2.1. For every kWh of purchased energy consumed for the heat pump compressors and system pumps, 2.1 kWh of heat is supplied to the building. 1.3 GEOTHERMAL GROUND COUPLING A. Description: The ground couple will consist of closed-loop vertical well field and field piping connecting the wells with the two buildings. Alaska Energy Engineering LLC Page 2 B. Wells: The well field will consist of 142 wells, each 6” in diameter and 125’deep. The wells will be cased during drilling and the casing removed during backfill operations. A ¾” HDPE pipe loop will be placed in each well and the well backfilled with thermo conductive grout. Each well loop will be pressure tested prior to backfilling. Direct ground water contact with the pipe loop will provide very good thermal conductivity between the ground source fluid and the ground. C. Well Field Piping: Field piping will consist of six insulated HDPE pipe loops, three for each building, each connected to an equal number of wells. Each branch will connect to a pair of wells in series. The piping will be laid in trenches and pressure tested prior to backfilling. D. Site Excavation and Restoration: The well field and field piping will be installed between the two buildings. All piping will be a minimum of 18” below the surface. The surface will be paved and landscaped for resident use. 1.4 GROUND SOURCE PUMPING SYSTEM A. Description: Each building will have ground loop pumps that circulate water between the well field and the heat pumps located within the building. The well field is sized for 100% of the heating load and 50% of the domestic hot water load. During periods of really cold weather when the well field load is maximized, the electric hot water heater will provide supplemental domestic hot water heat if needed. This sizing is optimal for the facility as it significantly decreases the construction costs the well field size will shifting only 6% of the heating load to supplemental electric heat. B. Building Piping: The well field pipe loops will be manifolded together within the building and connected to the heating and domestic water heat pumps. Piping within the building will be insulated HDPE piping. The piping will be filled with an antifreeze solution to prevent freezing. C. Loop Pumps: Each building will have two variable speed loop pumps that circulate ground source water through the heat pumps. The pumps will variable speed for energy efficiency and sized for 100% redundancy. 1.5 HEAT PUMPS A. Description: Water-to-water heat pumps will produce hydronic heating water and domestic ho water in each building. B. Water-to-Water Heat Pumps 1. Heating System: Each building will have two water-to-water heat pumps that produce hydronic heating water. The heat pumps are sized at 75% of the design load so that one may carry the load if the other is down for maintenance. The heating water will be stored in an heating water storage tank. The tank will have electric heating coils that will provide backup heat when the heat pumps require maintenance. The hydronic heating water will supply an in-floor radiant heating system and heating coils in the ventilation and makeup air units. 2. Domestic Hot Water: Each building will have a water-to-water heat pump that produces domestic hot water. The heat pump is optimally to supply the peak hot water demand. The hot water will be storage in an electric hot water heater that will provide supplemental hot water heating during cold weather when the well field is at maximum output. Alaska Energy Engineering LLC Page 3 1.6 VENTILATION A. Each building will be ventilated by a heat recovery ventilator that supplies the occupied spaces and draws exhaust air from toilets, janitor closets, laundry, and the kitchen. The kitchen will have a make-up air fan and exhaust fan serving the kitchen hood. 1.7 EQUIPMENT SCHEDULE A. The following table provides a schedule of the equipment required for the GSHP system. Ground Source Heating System Equipment Schedule Equipment Capacity Well field 142 wells spaced on 12’ center Each well 125’ deep and 6” diameter ¾” HDPE closed pipe loop in each well Well field piping Three loops of insulated HDPE piping per building Ground source pumps (4) 175 gpm @ 77’ head, 7.5 HP, variable speed Water-to-water heat pump (4) 210 MBH, 30°F EWT, 3 gpm/ton Load pumps (4) 35 gpm @ 35’ head, 3/4 HP Heating storage tank 200 gallons, stainless steel Building pumps (4) 20 gpm @ 40’ head, 1/2 HP Domestic hot water heat pump (2) 120 MBH, 30°F EWT, 3 gpm/ton DHW pumps (2) 35 gpm @ 20’ head, 1/2 HP Hot water storage tank (4) 120 gallons electric hot water heater