Dave extract and supply fans represent Nuaire’s latest innovation.. A compact range of high performance fans in 7 case sizes The Q-Aire Carbon Filter is the next step in fighting air pollution from home. Carbon filtration is now becoming a planning requirement in urban areas as levels of airbourne contaminents such as Nitrogen Dioxide continue to rise. Nuaire's Carbon Filter provides increased filtration of the air brought into the home via the MVHR system, giving homeowners confidence in their indoor air quality and giving housebuilders confidence in meeting planning obligations. Demand Control Ventilation - Are We Saving Cash or Carbon Nuaire Named Top HVAC Employer Nuaire Celebrates 50 Years of Innovation Don’t Let Air Pollution Control Your Asthma – Top 10 Tips To Help You Fight Back Nuaire's Carbon Filter Tackles Air Pollution in Bristol New development raises the bar for indoor air quality with Nuaire's Carbon Filter.These direct ventilation units are designed for larger spaces, and can readily be used in multiples.

SAV Systems offers 2 models of floor standing units:830 m³/hr with 35 dB(A) @ 1m, or 690 m³/hr with 30 dB(A) @ 1m.This heat recovery ventilation system is suitable for larger offices, conference rooms, classrooms and other environments where noiseless efficient air exchange is required.red dot ac systemThis can be specified with top inlet and bottom extraction (as shown), so as to produce mixing type ventilation. how to replace ac unitAlternatively, a wide grille bottom inlet with top extraction produces displacement mode ventilation.how air handling unit workAM900 can be supplied with modulating  CO2 control to provide a consistently good, fresh working environment.1,310 m³/hr with 35 dB(A) @ 1m, or 1,050 m³/hr with 30 dB(A) @ 1m.AM 1200 units are well suited to open-plan offices, communal areas and dealing rooms.

This versatile heat recovery ventilation unit can be placed either end-on or sideways-on against a wall. The sides can be fitted with a choice of different surfaces, including acoustic lightboard, MDF (medium density fibreboard), whiteboard or mirror. Besides providing direct ventilation, the AM 1200 can be used as a room partition, notice board or as a base for decorative panels.Both the AM 900 and AM 1200 units are well suited to open-plan offices. Other applications include classrooms, communal areas and dealing rooms.To help plan for the introduction of these larger heat recovery ventilation units, SAV can put forward installation specialists to join in with early stage discussions of site issues, remaining involved right the way through to successful commissioning and handover.SAV Systems runs CPD seminars which focus on the features and benefits offered by AirMaster ventilation units, which include effective demand control of indoor air quality, low noise and significant energy savings.

Please contact our Woking office for further details.If you need some further information about the AM series, do give us a call! If you’d like to see the units in operation, SAV have several AirMaster direct ventilation units (both wall mounted and floor standing) at our Woking office, and we’d be happy to show you around. Our contact details are:SAV Systems, Scandia House, Boundary Road, Woking, Surrey GU21 5BX Overloaded filters can increase the energy demand on fans. Overloaded filters can reduce the volume of supply air, resulting in mproper system operation. Continually assessing new filter technologies facilitates adoption of filters with improved efficiency and durability. Increasing the filter cross-sectional area (angled filter bags, pleated filters) provides more energy-efficient filtration. Triple Bottom Line Benefits Cost benefits: Energy savings result in cost savings. Regular filter replacement prevents pollutant overloading and improves energy performance.

See case studies for specific examples. Environmental benefits: Reducing energy use always has an environmental benefit (see the Roadmap Benefits Calculator page). In addition, filter replacement can result in more efficient filter function and improved air quality. Health and safety benefits: Regular filter replacement should improve indoor air quality, enhancing patient and staff experience. Quality and outcomes: Metrics are in development.  If you have suggestions, please contact us or participate in the discussion below.Purchasing ConsiderationsIf you have suggestions for purchasing considerations, or suggested sample contract language for any product or contracted service, please participate in the discussion below. Determine who's on the team: commissioning agent, building engineer, HVAC maintenance personnel, BAS manager. Consult the infection prevention and safety officer regarding potential temporary shutdowns during filter changes in ventilation systems serving patient care areas.

Perform a walk-through to inspect AHUs throughout the facility and document the results: Develop an AHU log with the following information: All AHU equipment locations by space designation, zone, location, and floor area serviced For each AHU: the required filter size, quantity of filters, MERV rating of the current filter, and  manufacturer’s recommended differential pressure for change out Which filters have differential pressure gauges and which are monitored by the BAS Check for damage and/or moisture on existing filters and filter fasteners. Damaged filters should be changed immediately to reduce the risk of microbial growth and (in the case of tears or punctures) dirt being introduced into the ductwork. Maintenance personnel should identify and correct the source of moisture, whether a leak or condensation from HVAC equipment. Check filter mounting racks and seals for proper sealing/mating. Check for evidence of leakage around the sealing surfaces.

Verify that current filters meet ventilation requirements and are optimized to the existing HVAC system: Review filtration requirements per space designation as outlined in Table 6.1 (Minimum Filter Efficiencies) in ANSI/ASHRAE/ASHE 170: Ventilation of Health Care Facilities (also pubished as part of the Guidelines for Design and Construction of Health Care Facilities). If filters do not meet current MERV minimums, consider changing to filters with updated MERV ratings. When filters are to be replaced, notify occupants that the AHUs will be shut down for approximately 15 minutes duriing replacement. If possible, perform the replacement during off-hours to minimize disruption in operations. Shut down equipment prior to replacing the filters. When placing the filters in the filter rack, ensure the airflow arrow is pointing away from the cooling coil and the filter media is sealed in the frame to keep bypass air from entering the duct. Seal cracks between filter frames and between the filter bank and the duct wall.

Consult with the building engineer or an outside engineering consultant regarding performing air balancing to maximize energy efficiency. Schedule regular filter replacements as recommended by the manufacturer. Replace filters more often under extreme conditions. If one is not already in place, consider installing a differential pressure measurement device across the filter bank to monitor pressure drops via the facility’s building automation system (BAS). Monitoring the pressure drop across filter banks and adjusting replacement schedules according to actual conditions instead of using “time-based” replacement schedules can reduce maintenance labor and filter material expenses. Log all filter replacement activities in the AHU log. Coordinate with performance improvement measures Retrocommission HVAC controls and Practice preventive maintenance of major HVAC equipment. ToolsIf you have an ROI tool, calculator, or similar resources to share, please contact us or participate in the discussion below.

LEED for Existing Buildings: Operations + Maintenance Energy & Atmosphere Prerequisite 1: Energy Efficiency Best Management Practices—Planning, Documentation, & Opportunity Assessment Energy & Atmosphere Prerequisite 2: Minimum Energy Performance Energy & Atmosphere Credit 1: Optimize Energy Efficiency Performance Energy & Atmosphere Credit 2.1: Existing Building Commissioning—Investigation & Analysis Energy & Atmosphere Credit 2.1: Existing Building Commissioning—Implementation Energy & Atmosphere Credit 3.1: Performance Measurement—Building Automation System Energy & Atmosphere Credit 5: Measurement & Verification Indoor Environmental Quality Credit 1.4: IAQ Best Management Practices-Reduce Particulates in Air Distribution LEED for Healthcare: New Construction and Major Renovations Energy & Atmosphere Prerequisite 1: Fundamental Commissioning of Building Energy Systems Energy & Atmosphere Prerequisite 2: Minimum Energy Efficiency Performance

Energy & Atmosphere Credit 3: Enhanced Commissioning Energy & Atmosphere Credit 5: Measurement and Verification Indoor Environmental Quality Credit 5: Indoor Chemical and Pollutant Source Control Green Guide for Health Care: Operations Section Facilities Management Prerequisite 1: Energy Efficiency Best Management Practices—Planning, Documentation, & Opportunity Assessment Facilities Management Prerequisite 2: Minimum Energy Efficiency Performance Facilities Management Credit 1: Optimize Energy Efficiency Performance Facilities Management Credit 3.1: Existing Building Commissioning—Investigation & Analysis Facilities Management Credit 3.2: Existing Building Commissioning—Implementation Facilities Management Credit 3.3: Existing Building Commissioning—Ongoing Commissioning Facilities Management Credit 4.3: Building Operations & Maintenance: Building Systems Monitoring Education ResourcesIf you have any information or resources to contribute, please contact us or participate in the discussion below.