innovative systems -...
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Ball State Architecture | ENVIRONMENTAL SYSTEMS 2 | Grondzik 1
INNOVATIVE SYSTEMSa look at some trending systems
wave energy systemhttp://interestingengineering.com/innovative-system-produces-clean-energy-from-waves/
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DESIGN PROCESS INNOVATIONS
http://www.ha-inc.com/blog/entry/takeaways-2014-ashrae-conference/
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INTEGRATED DESIGN PROCESS
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DESIGN PROCESS INNOVATIONS
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COMMISSIONING
thespinakergroupinc.com
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ARCHITECTURE 2030
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HVAC INNOVATIONS
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HEAT EXCHANGERS
Architectural Graphic Standards, 10th Ed., Wiley
HRV:heat recovery ventilator
provides for sensibleheat exchange; usually by passing intake and exhaust air streams next to each other—separated by a metal divider plate
reduces the amount of energy required to heat/cool outdoor air for ventilation
not really a new idea, just good fundamental design
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HEAT EXCHANGERS
Architectural Graphic Standards, 10th Ed., Wiley
ERV:energy recovery ventilator
provides for sensibleand latent heat exchange; by passing intake and exhaust air streams through a chemically treated rotating wheel heat exchanger
reduces the amount of energy required to heat/cool outdoor air for ventilation
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HEAT EXCHANGERSp
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HRV is shown as a fundamentalelement in a passive house
passive house on HERS scale(Home Energy Rating System)
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HEAT EXCHANGERS
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basic conceptERV in solar decathlon house
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LOOPED HEAT PUMPS
• In a building with reasonably balanced zone loadings (heat losses similar to heat gains) boiler and cooling tower operation can be minimized
• The water loop can act as a transfer loop to move heat around a building to where it is needed
• With near-room-temperature water as a source, the heat pumps can operate with high COPs—saving energy
seldom required
not really a trendy system, but an interesting concept
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GROUND SOURCE HEAT PUMPS
not truly an innovative system today, but applications tend to be innovative
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Ball State Previously used a Coal/Gas Boiler and Water-Cooled Chiller System
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Electrically-Driven Ground Source Heat Pumps Provide Both Heating and Cooling Effect
during construction after construction
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BSU North Plant Building
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The Vapor-Compression Refrigeration Cycle as an Air-Cooled, Water-Cooled, or Ground-Cooled System
heat from system to outdoors
heat from room into system
100 F air DB
85 F air WB
50 F soil DB
75 F air DB
45 F
125 / 110 / 75
rela
tive
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lift
air
DB
air
WB
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UFAD: UNDERFLOOR AIR DISTRIBUTION
www.architechweb.com/.../5131/Default.aspx
suggested benefits as described
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UFAD: UNDERFLOOR AIR DISTRIBUTION
news.cision.com
consider what can happen to the ceiling plane
tateinc.com
diffusers
diffusers
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CHILLED BEAMS
www.treehugger.com/.../11/chilled_beams_f.php
these claims needto be rationallyevaluated; latentcooling is aserious issue
suggested benefits as described
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CHILLED BEAMS
www.dadanco.com.au
consider what happens
to the ceiling plane
www.mccoysales.com
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DOAS: DEDICATED OUTDOOR AIR SYSTEM
www.reliant.com/en_US/Page/Generic/Public/
←options OA system↑
suggested benefit is consistent
ventilation that is independent
of control for thermal comfort
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DOAS: DEDICATED OUTDOOR AIR SYSTEM
www.buildingscience.com
IAQ part of system
thermal comfort part of system
in this case, an air-water distribution approach
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DOAS: DEDICATED OUTDOOR AIR SYSTEM
www.hpac.com
rationale for aDEDICATEDOA system
100% design OA flow 30% design OA flow
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ELECTRICAL INNOVATIONS
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MICROGRIDS In many respects, microgrids are smaller versions of the traditional power grid. Like current electrical grids, they consist of power generation, distribution, and controls such as voltage regulation and switch gears. However, microgrids differ from traditional electrical grids by providing a closer proximity between power generation and power use, resulting in efficiency increases and transmission reductions. Microgrids also integrate with renewable energy sources such as solar, wind power, small hydro, geothermal, waste-to-energy, and combined heat and power (CHP) systems.
http://www.generalmicrogrids.com/#!about-microgrids/c1r3e
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SMART GRIDS
Smart grids will provide more electricity to meet rising demand, increase reliability and quality of power supplies, increase energy efficiency, be able to integrate low carbon energy sources into power networks. smart grids possess demand response capacity to help balance electrical consumption with supply, as well as the potential to integrate new technologies to enable energy storage devices and the large-scale use of electric vehicles. Computers will provide the smarts.
http://new.abb.com/smartgrids/what-is-a-smart-grid
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DCGRIDS
Today, with few exceptions, the electric grid is predominately AC. However, it appears that DC power grids may be on the verge of a comeback of sorts. Digital equipment, solar PV, storage batteries, electric vehicles and other end-use devices all require DC power. Data centers are chockfull of such devices and for several years there has been a movement toward DC data centers. Additionally, others are calling for our houses to embrace DC power, as well. Some say there is a larger role for DC power on our grids to improve stability and enhance reliability. http://tdworld.com/grid-opt-smart-grid/growing-dc-power
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DCGRIDS
Article 706, Energy Storage Systems – As noted in
the Scope, this proposed Article “applies to all
permanently installed energy storage systems
(ESS) that may be stand-alone or interactive
with other electric power production sources.”
Article 712, DC Microgrids – As defined in Sec. 712.2, a “a direct current microgrid is a power distribution system consisting of one or more interconnected DC power sources, DC-DC converters, DC loads, and AC loads powered by DC-AC inverters. A DC microgrid is typically not directly connected to an AC primary source of electricity, but some DC microgrids interconnect via one or more DC-AC bidirectional converters or DC-AC inverters.”
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LIGHTING INNOVATIONS
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LIGHTING INNOVATIONS
Lighting technology (lamps/luminaires) and design processes (including simulations) are fairly advanced. It is likely that innovations moving forward will involve incremental improvements in lamps (with associated code changes) and more sophisticated control devices and strategies.
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INDUCTION LAMP
www.ventilux.com www.av.net.au
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LIGHTING INNOVATIONS
melanopic illuminance
melanopic lux
thespinnakergroupinc.com
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PLUMBING INNOVATIONS
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WATERLESSw
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reduce the use of valuable andenergy-intensive potablewater for waste removal
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com
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LIVING MACHINE
www.dwell.com/post/article/look-living-machine-systems
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www.quadlock.com/insulated-concrete-forms/green_roofs.htm
GREENROOFS
as partof a
drainage system
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GREENROOFS
as partof an
integrated system
www.igra-world.com/engineering/solar_energy.php
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WATER ACCOUNTING
versus
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n
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FIRE PROTECTION INNOVATIONS
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FIRE PROTECTION INNOVATIONS
Fire protection technology and design processes are fairly advanced. Fire protection is also rigidly controlled by building codes. It is likely that innovations moving forward will involve incremental improvements in code requirements and better understanding of smoke control strategies.
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RESIDENTIALFIRE SPRINKLERS
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FIRE PROTECTION INNOVATIONS
RESIDENTIALFIRE SPRINKLERS
Special edition of the NFPA Journal,November 2016
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ELEVATOR INNOVATIONS
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DRIVES
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CONTROLS
www.mitsubishielectric.com/elevator/innovations/control_system.html