pace financing


Save Energy and Capital: IQ Radiant Heated Glass & Solar can be combined to reduce energy costs by over 25% and achieve a Net Zero Building, Commercial or Residential, and can be financed for twenty years with no money down under the PACE Program, The video below explains how.

About C-Pace -

C-PACE allows building owners to finance qualifying energy efficiency and clean energy improvements through a voluntary assessment on their property tax bill. Property owners pay for the improvements over time through this additional charge on their property tax bill, and the repayment obligation transfers automatically to the next owner if the property is sold. Capital provided under the C-PACE program is secured by a lien on the property, so low-interest capital can be raised from the private sector.

Commercial Property Assessed Clean Energy (C-PACE) is an innovative program that is helping commercial, industrial and multi-family property owners access affordable, long-term financing for smart energy upgrades to their buildings.

THIS VIDEO BELOW CAN SHOW YOU HOW TO MAKE YOUR PROJECT A REALITY USING UNIQUE PACE FINANCING:

Up on the roof

Up on the roof
YOU ALREADY OWN YOUR ROOF, WHY NOT USE IT? THROUGH THE SUBLIME MAGIC OF RADIANT HEATING GLASS, WE WILL PROVIDE YOU WITH YEAR ROUND THERMAL COMFORT FOR USE AS A SPECTACULAR HOME OFFICE, KITCHEN, PERSONAL SPA, ROOF GARDEN, PRIVATE DINING OR ANYTHING ELSE THAT YOU AND YOUR ARCHITECT CAN CREATE. WE HIGHLY RECOMMEND THAT YOU USE A PROFESSIONAL AIA ARCHITECT FOR THIS TYPE OF APPLICATION.

Radiant Heating Glass Windows

Heated glass or heating glass has gone through three distinct phases of development:

First Generation Radiant Heating Glass   - Two panes of metal coated pieces of low e, metal coated glass, were put together as an insulated glass unit. On side three of the IG unit, copper buss bars were fused to two of the opposing glass edges and an electric current was passed through the hard coated low e surface generating heat. The buss bars were robust in size as the thinking was to maximize the current and power  handling capability of the unit. The surface heat of the glass  was given priority over  efficiency and the conversion ratio of electric current to radiant heat in the proper range.

Second Generation Radiant Heating Glass   - It was recognized that the performance of the glass had to be maximized both on-cycle and off-cycle. To that  end, inert gas replaced less efficient dry air. This increases the efficiency of the IG unit by up to 30%. To ensure the lack of distortion on the glass and to maintain at least 95% of the gas remains over the 20 year life expectancy of the unit, the manufacturing location of the glass  and the installation site should be within an elevation range no greater than 2,500 feet ( 762 meters). Breather tubes, used to equalize the air pressure differential, defeat the purpose of the inert gas and are not recommended by most large glass companies such as Cardinal Glass.

Third Generation Radiant Heating Glass- Hard coated low e glass was discontinued and more efficient soft surface coatings were substituted resulting in less power usage and a refinement of the  electric conversion to the optimum radiant range. Triple glazing further improved the dormant and active performance of the energized duty cycle . Increased sensitivity of control systems and pairing with solar PV panels has produced a combination that can now make Net Zero Building construction a reality. Third Generation Radiant Heating Glass Window Systems maintain a lower surface temperature, have a more efficient conversion factor and can project radiant heat over ten meters (30 feet) into the room. This is not possible with previous hard coat generations. Heat stratification was also further reduced resulting in greater thermal comfort at lower temperatures. 


CEBTP, a renowned scientific control institute in France, conducted a thermal research study comparing a greenhouse heated with the traditional convection system to a green house heated with IQ Radiant Heating Glass. In identical climatological circumstances, CEBTP observed that with the convection-heated greenhouse, the air had to be heated to 77° F for the occupant to experience a sensation of warmth approximating 68° F. With IQ Radiant Heating Glass, air temperatures of only 64° F provided a sensation of warmth of 73°. In effect, IQ Radiant Heating Glass provided a feeling of 9° F more warmth with 9° less energy.

New York Roof Top

New York Roof Top