Product Slides Updated 06 17 09

+energy Buildings

Heated by the SunCooled by the Earth

CNY Renewable Energy Associates, LLCJohn M. Mirandajmiranda@twcny.rr.com

2009

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Predictive Analysis EMSLED Lighting Systems

Energy Conservation

BELOWEARTH

SURFACE

Heated by the Sun – Cooled by the Earth

COMMERCIAL BUILDING

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Predictive Analysis EMSLED Lighting Systems

Energy Conservation

BELOWEARTH

SURFACE

• Heat– Uses standard, low-cost, solar thermal panels

• Roof mounted or

• Ground mounted

• Power– Uses Building Integrated Photovoltaic (BIPV) in windows

where appropriate– Uses standard, Photovoltaic (PV) panels

• Roof mounted or

• Ground mounted

Heat & Power From the Sun

Heat From the Sun – Typical Solar Thermal Panels

Power From the Sun – Solar PhotoVoltaic (PV)

Power From the Sun – Solar PhotoVoltaic (PV) Panels

Power From the Sun – Solar Building-Integrated PhotoVoltaic (BIPV) Panels

Thin-Film Technology isLaminated into Windows

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Predictive Analysis EMSLED Lighting Systems

Energy Conservation

BELOWEARTH

SURFACE

Combine “ Near Clean Room”

With reduced-cost, increased-efficiency,

“green-ready”

Particle Removal

HVAC

Superior IAQ: HVAC + Particle Removal

PACT (by SecureAire)

(Particle Acceleration Collision Technology)

Particle Removal

Superior IAQ: Particle Removal - PACT

Particle Collision Accelerator

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+– –

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–+ –

–

What PACT doesWhat PACT does

1.Makes the dominant transport mechanism airflow.2.Forces particles to come together.3.When particles collide they stay together (produces inelastic collisions).

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+

–

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Superior IAQ: PACT – What Does PACT Do?

Superior IAQ: PACT – How is PACT Different?

THE ONLY

“…your success to date before the Patent and Trademark Office has been rather remarkable”

Superior IAQ: PACT – How is PACT Different?

18,280,000

1,352,000

214000 50000 35000 1000

0

4000000

8000000

12000000

16000000

20000000

Number of

Partic les

0-0.05 0.05-1 1-3 3-5 5-10 10-30

Partic le Size (u)

Partic le Size Distribution in Air

Dominant Transport Mechanism > 3

AirflowDominant Transport Mechanism < 1.0

Electric Field

Superior IAQ: PACT – How Does PACT Work?

18,280,000

1,352,000

214000 50000 35000 1000

0

4000000

8000000

12000000

16000000

20000000

Number of

Partic les

0-0.05 0.05-1 1-3 3-5 5-10 10-30

Partic le Size (u)

Partic le Size Distribution in Air

Dominant Transport Mechanism > 3

AirflowDominant Transport Mechanism < 1.0

Electric Field

Superior IAQ: PACT – How Does PACT Work?

Electronics Unit Air Unit

• Supplies electrical signals to Air Unit• Controls Air Unit Behavior

• Conditions particles to attract • Forces particles together

Superior IAQ: PACT – How Does PACT Work?

HVAC Installs

Superior IAQ: PACT – How Does PACT Work?

Air Purification System

• Roll-around• Self-Contained• Single Room

Superior IAQ: PACT – How Does PACT Work?

Lake Tahoe Surgical Center Data

0

100000

200000

300000

400000

500000

600000

700000

12:0

0 A

M

12:4

7 A

M

1:34

AM

2:21

AM

3:08

AM

3:55

AM

4:42

AM

5:29

AM

6:16

AM

7:03

AM

7:50

AM

8:37

AM

9:24

AM

10:1

1 A

M

10:5

8 A

M

11:4

5 A

M

12:3

2 P

M

1:19

PM

2:06

PM

2:53

PM

3:40

PM

4:27

PM

5:14

PM

6:01

PM

6:48

PM

7:35

PM

8:22

PM

9:09

PM

9:56

PM

10:4

3 P

M

11:3

0 P

M

12:1

7 A

M

1:04

AM

1:51

AM

2:38

AM

3:25

AM

Time

2.5

mic

ron

coun

ts/C

FM Without Secure Air System

With Secure Air System

Lake Tahoe Surgury Center Data

0

50

100

150

200

250

300

350

400

12

:00

AM

12

:48

AM

1:3

6 A

M

2:2

4 A

M

3:1

2 A

M

4:0

0 A

M

4:4

8 A

M

5:3

6 A

M

6:2

4 A

M

7:1

2 A

M

8:0

0 A

M

8:4

8 A

M

9:3

6 A

M

10

:24

AM

11

:12

AM

12

:00

PM

12

:48

PM

1:3

6 P

M

2:2

4 P

M

3:1

2 P

M

4:0

0 P

M

4:4

8 P

M

5:3

6 P

M

6:2

4 P

M

7:1

2 P

M

8:0

0 P

M

8:4

8 P

M

9:3

6 P

M

10

:24

PM

11

:12

PM

12

:00

AM

12

:48

AM

1:3

6 A

M

2:2

4 A

M

Time

TV

OC

Co

un

ts

Without Secure Air System

With Secure Air System

Lake Tahoe Surgery Hospital

Particulates TVOCs

Zero Hospital Acquired Infections (HAI) since PACT was installed in January 2006.

Superior IAQ: PACT – How Well Does PACT Work?

PARTICLE COUNT“BEFORE”

PARTICLE COUNT“AFTER”

Superior IAQ: PACT – How Well Does PACT Work?

QairTerminal (by NuClimate)

HVAC

Superior IAQ: HVAC - QairTerminal

THE QAIRTERMINAL, A CEILING-MOUNTED, INDUCED-VENTILATION SYSTEM, WAS DEVELOPED TO ADDRESS ALL OF THE FOLLOWING

COMMON COMPLAINTS OF HVAC SYSTEMS.

• POOR INDOOR AIR QUALITY.

• NOISE.

• MOLD.

• COMFORT.

• ELIMINATE MAINTENANCE REQUIREMENTS.

• ELIMINATE FLOOR SPACE FOR MECHANICAL EQUIPMENT.

• REDUCE ENERGY CONSUMPTION.

• INCREASE SECURITY.

• REDUCE DUCT SIZE.

• REDUCE EQUIPMENT CAPACITY NEEDED.

Superior IAQ: HVAC - QairTerminal

• All-surround Q360 Blow 48x48 – 8” Inlet duct size

• All-Surround Q360 Mini 24x24– 6” Inlet duct size– 4” Inlet duct size

• Q1 24x24 One Way Blow

• QLS Linear 48x24, 48x12 One Way

Superior IAQ: NuClimate QairTerminal Models

Superior IAQ: NuClimate All-Surround - Q360

• Costs Significantly Lower Than VAV– Installed Cost 10% Less Than VAV– Operating Cost 17% Less Than VAV

• Ducting Sizes 60% Smaller than VAV Ducting

• Simpler Terminal Design– No Air Balancing of System at Terminals– Less Electrical Wiring - No Fan at Terminal– Less Maintenance - No Moving Parts at Terminal

Superior IAQ: NuClimate Cost Savings

ELECTRONICALLY- CONTROLLED

(WATER HEATED AND COOLED) COILS

Superior IAQ: HVAC – QairTerminal Easy Access

CLOSE-UP OF ELECTRONICALLY- CONTROLLED (WATER HEATED AND COOLED) COILS

Superior IAQ: HVAC – Coils

12 Foot throw @100 FPM All Around Perimeter

Primary Ventilation Air : 186-476 CFM

Ventilation Pressures

.40-1” SP

Primary Air Ventilation From DOAS Unit

55 degrees 48 grains

Total Room Mixing is achieved thru the Coanda effect within the space

75 degrees 55%RH

3-1 Mixing effect

45 degree chilled water or 120 deg Hot water

Superior IAQ: HVAC – Principle of AirflowAll-Surround Ventilation Effectiveness

Outside Air

Exhaust

Primary Air

Return Air

DOAS

DedicatedOutsideAirSystem

Superior IAQ: HVAC – QairTerminal Schematic

Superior IAQ: Sample of Project Installations

The QairTerminal Can Be

Heated and Cooled by

Conventional Boilers & Chillers

and/or by

Solar Thermal & Geothermal

That’s the most important part of this section

Superior IAQ: HVAC – But Wait!! There’s More!!

GYMNASIUM/AUDITORIUM

Air Handler

Dedicated Outdoor Air

System

Air Cooled Condensing

Unit

ChillerBoiler

3 Way Valve

Outside Air

Exhaust

Primary Air

Return Air

ADMINISTRATION

AEROBICS

LOCKER ROOMS

WORKOUT ROOMS

Superior IAQ: HVAC – QairTerminal Some Green

OR

GYMNASIUM/AUDITORIUM

Air Handler

Dedicated Outdoor Air

System

Air Cooled Condensing

UnitSmall Chiller

Small Boiler

3 Way Valve

Outside Air

Exhaust

Primary Air

Return Air

ADMINISTRATION

AEROBICS

LOCKER ROOMS

WORKOUT ROOMS

Solar Thermal Heating

Geothermal Cooling

That’s the most important part of this section

Superior IAQ: HVAC – QairTerminal Very Green

• Some Green– Boiler

• One-Time Cost of Boiler• Recurring Cost of Heat

Source, 180F H2O to H2O Exchange

• Cost of Pumping

– Chiller• One-Time Cost of Chiller

• Recurring Cost of “Cold” Source, 44F H2O to H2O Exchange

• Cost of Pumping

• Very Green– Solar Thermal Panels

• One-Time Cost of Panels• “No” Cost of Heat Source &

Single, 120F H2O to H2O Exchange

• Cost of Pumping

– Geothermal System• One-time cost of Geothermal

• “No” Cost of “Cold” Source & Single, 55F H2O to H2O Exchange

• Cost of Pumping

Superior IAQ: HVAC – Cost Comparison

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Energy Conservation

BELOWEARTH

SURFACE

Predictive Analysis EMSLED Lighting Systems

Grid – Electrical Distribution Infrastructure

ELECTRICALINPUT

ELECTRICALOUTPUT

Possible Systems

• Grid Conditions• Weather Predictions• Cost of Energy

• Geothermal (heat pumps)• Solar PV / Thermal• Wind• Hydro• Bio-Fuel Generators

• Cooling • Heating (active & passive)• Energy Storage• Humidity• Air Quality• Lighting

• Other Conservation

• Health Monitoring

Building

MeteringSystem(s)

A.I. OptimizingSystem(s)

Integrated ManagementControl System(s)

Electrical Power Users & Providers

Internet

Remote Monitor

LocalMonitor

AND / OR

Energy Conservation - Predictive Energy Management System: Future

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Energy Conservation

BELOWEARTH

SURFACE

Predictive Analysis EMSLED Lighting Systems

Energy Conservation: LED Lighting Systems*AVAILABLE TODAY*

With Cover

Without Cover

Same Light Fixture

+energy Buildings - Overview

Heating and PowerFrom Sun

Cooling From Earth

Superior IAQ

Solar Thermal Systems

HVAC + ParticleRemoval Systems

Geothermal Systems

BUILDING

EARTHSURFACE

Energy Conservation

BELOWEARTH

SURFACE

Predictive Analysis EMSLED Lighting Systems

Geothermal Systems: Hardin Tube

PATENTED HARDIN GEOTHERMAL TECHNOLOGY

USES ONLY ONE TUBE

ENCASED IN A THIN LAYER OF THERMO-CONDUCTIVE GROUT

TODAY’S CONVENTIONAL GEOTHERMAL TECHNOLOGY USES TWO TUBES ENCASED

IN A THICK LAYER OF THERMO-CONDUCTIVE

GROUT

GROUT (GREY)

Hardin Achieves GreaterEfficiency in Three Ways:

1. Greater Heat Transfer Surface Area

2. Thinner Layer of Grout Provides Greater Thermal Transfer Efficiency (Conductivity Between 55F Earth and Water in Tube)

3. Closer Proximity Between In & Out Provides Faster Temperature Equalization

Geothermal Systems: Hardin Tube

Heated by the Sun – Cooled by the Earth

RESIDENTIAL BUILDING*

* Already “complete” except for: PV uniform airflow system particle removal system “brilliant” EMS

The LeFevere 85% Passive Home Heat From Sun – Cool From Earth

THIS HOUSE CAN BE BUILT AT OR BELOW THE COST OF A SIMILARLY- SIZED, “2008 STICK-BUILT” HOUSE IN CENTRAL NEW YORK.

N

The LeFevere 85% Passive Home Heat From Sun – Cool From Earth

• 3,800 Square Feet• Built in 2000• Loc: Kingston, NH• No Heater• No AC• No Backup• No Oil/Gas/Coal/Wood • Rebar in Foundation/Walls

Maintains 55F Throughout• Built Over 14” Foam• Conditioned Water• Roof = R66

• Radiant Heat (2 Floors)• Solarium• 5,000 Gal H20 “Buffer”• 10W H20 Distribution Pumps• Constant 68F (+/- 2%) ()

• Constant 50% Humidity (+/- 2%) ()

• Mold Free• Cupola Vent• PV / BIPV: Future• Fresh Air Exchanger• Avg. Electric = $51/mo. ()

() Documented since 2000 (9 years)

The LeFevere 85% Passive Home Heat From Sun – Cool From Earth

HEAT FROM SUN

Ground Level

Foundation Wall(inside) ()

House Wall (inside) ()

12” Thick Concrete

Foam Insulation

55F – ConstantKeeps

Foundation / Wall @ 55F - Constant

105F

-30F68F – Constant ()

COOL FROM EARTH

OUTDOORS INDOORS

Ground Level

Steel Rebar

() Foundation & House Walls Are Contiguous

() Can be Designed to Maintain a Different Base Temperature

The LeFevere 85% Passive Home - Interior

KITCHEN WITH ISLAND

“OPEN” ROOM BORDERING SOLARIUM INDOOR VIEW OF SOLARIUM

1 OF 2 OFFICES

The LeFevere 85% Passive Home - Systems

CYCLED FRESH AIR EXCHANGER

WATER CONDITIONING

FORM USED FOR CONCRETE WALLS

RADIANT HEAT ZONE CONTROLS

RESIDENTIAL SUMMARY

• Six-year avg. of approximately $50/mo. utility bill

• (*) Already complete except for:

– PV (waiting for more efficient PV)

– Uniform airflow system (in development – see Appendix A)

– Particle removal system (in development – see Appendix A)

– “Brilliant” energy management system (needs development – see Appendix B)

QV Accelerator Typical (3) Units can connect to (1) Energy Recovery Outdoor Air Unit

Wall Mounted Application

70 cfm

Outside

Air

Exhaust from building70 cfm

Typical Ventilation System

NuClimate Air Quality Systems All right reserved 2008

Typical QVAccelerator18-25 CFMOutside Air100-114 CFM Total AirCirculation in the Room

1.5 KW Electric Heating coilSCR ControlledPre Heaterwith low energy cost to operate15 cents-20 cents per hour

Outside Air Energy Exchanger 70 cfm 90 wattts to operate at 115 volt power supply .75 amps

• Fresh air distribution system:• Qv-accelerator

• Insures 7 x 24 supply of fresh air to inhabitants of hermetically-sealed house

• Designed by co-inventor of Qairterminal

• Uses same principle of uniform air distribution as QairTerminal except no heating / cooling coils

• Best when equipped with (optional) PACT for particle removal

RESIDENTIAL - APPENDIX A (Airflow & Particle Removal System)

Grid – Electrical Distribution Infrastructure

ELECTRICALINPUT

ELECTRICALOUTPUT

Possible Systems

• Grid Conditions• Weather Predictions• Cost of Energy

• Geothermal (heat pumps)• Solar PV / Thermal• Wind• Hydro• Bio-Fuel Generators

• Cooling • Heating (active & passive)• Energy Storage• Humidity• Air Quality• Lighting

• Other Conservation

• Health Monitoring

Building

MeteringSystem(s)

A.I. OptimizingSystem(s)

Integrated ManagementControl System(s)

Electrical Power Users & Providers

Internet

Remote Monitor

LocalMonitor

AND / OR

Energy Conservation – Appendix B Predictive Energy Management System: Future

End Slide