System and method for building energy-related changes evaluation with the aid of a digital computer

What is claimed is: 1. A method for building envelope energy-related changes evaluation with aid of a digital computer, comprising steps of: obtaining a total amount of fuel purchased for a building over a set period from which an existing amount of fuel consumed for space heating is derived, wherein the total amount of fuel purchased for the building is determined based on a utility bill associated with the building; deriving the existing amount of the fuel consumed for space heating based on an amount of the fuel consumed by the building during a non-heating season period comprised in the set period; obtaining characteristics comprising thermal performance of the building and furnace and delivery efficiencies of the building for both existing and proposed equipment, comprising conducting an empirical test comprising remotely controlling a heating source inside the building, the existing equipment comprising an existing heating source and existing heating delivery components and the proposed equipment comprising a proposed heating source and proposed heating delivery components; expressing the thermal performance and furnace and delivery efficiencies characteristics of the existing and proposed equipment as interrelated ratios; and evaluating an amount of fuel to be consumed for space heating {circumflex over (Q)} F-Heating when the existing equipment is replaced with the proposed equipment in the building in accordance with: Q ˆ F - Heating = ( H ) ⁢ ( Q F ) ⁢ ( 1 - ∑ j = 1 M ( U j - U ˆ j ) ⁢ A j + ρ ⁢ c ⁡ ( n - n ˆ ) ⁢ V U ⁢ A Total ) ⁢ ( η furnace η ˆ furnace ) ⁢ ( η d ⁢ e ⁢ l ⁢ i ⁢ ν ⁢ e ⁢ r ⁢ y η ˆ d ⁢ e ⁢ l ⁢ i ⁢ ν ⁢ e ⁢ r ⁢ y ) where H is a ratio of the existing amount of the fuel consumed for space heating relative to the total amount of fuel purchased Q F for the building over the set period, UA Total is the existing thermal performance of the building, M is a number of surfaces of the building, U j and Û j respectively represent existing and proposed U-values of surface j, A i represents surface area of surface j, infiltration losses are represented by density of air (p), specific heat of air (c), number of air changes per hour (n), and volume of air per air change (V), ƒ Furnace and {circumflex over (η)} furnace are respectively the efficiencies of the existing and proposed heating sources, η Delivery and {circumflex over (η)} delivery are respectively efficiencies of the existing and proposed heating delivery components, wherein the steps are performed on a suitably-programmed computer. 2. A method according to claim 1 , further comprising interfacing over a wide area network to a server associated with at least one of a power utility and a utility service provider to obtain the utility bill. 3. A method according to claim 1 , wherein the ratio H of the existing amount of the fuel consumed for space heating Q F-Heating relative to the total amount of fuel purchased Q F for the building over the set period is determined in accordance with: H = Q F - Heating Q F Q F-Heating