The Zero Energy Home Project EDSGN100 Section 207

Team Number: 1 Submitted to 8/11/2015

Emails: Nick Lazzaro ngl5042@psu.edu, Rob Kientzy rck5174@psu.edu, Emma Hedrick elh5303@psu.edu, Katelyn Schiffer krs5665@psu.edu

The HLSK HomeBuilders from left to right, Row 1: Emma Hedrick and Katelyn Schiffer;

Row 2: Nick Lazzaro and Rob Kientzy

This is an isometric view of the northwest side of the zero energy home.

Index Executive Summary………………………………………………………………….…………...2

Introduction…………………………………………………………………………….…………3

Mission Statement……………………………………………………………………….………..3

Customer Needs Analysis……………………………………………………………………...…3

External Research…………………………………………………………………….…………..4

Concept Generation………………………………………………………………….………...…5

Concept Selection…………………………………………………………………….…....…..…7

Cost Model………………………………………………………………………….…….….…...8

Design………………………………………………………………………………..………..…..8

Model……………………………………………………………………………………....…….10

Conclusion…………………………………………………………………………….…………14

References…………………………………………………………………………….………….15

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Executive Summary:

The HLSK homebuilders have designed a home for under $140,000 that suits the needs

of a family of four while being a net zero energy home. This is a major step in the right direction

towards reducing the human race’s carbon footprint and creating a greener future. Through the

use of research on existing homes and through other techniques such as brainstorming or

patent searches, the team has designed a home that can achieve these goals and more.

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Introduction:

Our team has decided on building an 875 sq. ft., single floor, ranch­style home with four

windows and a sliding glass door lining the south facing wall and two windows lining the north

facing wall, which is the front of the house. The home contains two bedrooms, both 15’x10’, one

full bath that is 7.5’x10’, a washroom, which contains the washer/dryer combo, which is 7.5’x5’,

and an open floor plan with a kitchen and living area. There are fifteen 1200mm x 600mm solar

panels lining the south roof and a concrete slab in front of the sliding glass door. All of this

costing around $139,402.

Mission Statement:

To create a pleasing home for a family of four that can produce enough energy to run

itself, and put back into the grid.

Customer Needs Analysis:

In order to begin a zero energy home project, the team must have a customer for which

they wish to design. In this case, the HLSK HomeBuilders are building for a family of four with

a very broad list of statements. These customer statements tell the team what they have to

consider when creating the project, but first HLSK HomeBuilders converts statements to needs.

Needs that the customer imply include the following:

The home will produce its own energy usage over the course of the year and have excess

to charge a vehicle with some excess put into the grid.

The home needs to be solar­powered, and work in the Commonwealth.

The home uses green building principles, and has sustainability.

The home is a useful product that satisfies the customer without harming the community.

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Consider the health and welfare of all affected by project.

The home needs environmentally friendly products that will use renewable resources.

The product's wastes and outputs are safe.

The product is practical and wanted.

List possible developments and make sketches.

The home will work for a family of four.

The home needs to save resources for the future.

Function and beauty are prominent throughout the house.

Using materials, construct a 3D model of the design.

The product is aesthetically pleasing.

The big picture in mind is the sustainability of the home. The customer cares deeply

about their carbon footprint and hopes to better the world by not contributing pollution and

toxins into the atmosphere. The only other concern lies in the function and image of the house.

The HLSK HomeBuilders must make the product sustainable, functional, and appealing to the

customer.

External Research:

The team researched existing zero energy homes in order to aid in the concept generation

phase and to be able to benchmark their ideas. Four homes were researched and the team

determined that the most important wall of the house was the south facing wall. This wall

provides much of the natural lighting, the passive solar heating and will be where the PV system

is for the house. The team heavily used this information in the design of the house and continued

their research with the cost calculator which allowed them to see how different layouts could

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affect the cost of the house and its efficiency. This research led to the idea of having no

windows on the east and west walls. The reason for this is that even with triple low­e windows,

they can cause massive inefficiencies when heating and cooling. By not including the windows

and having just the 2x4 and 10” foam, the team was able to increase the size of the house and

stay under the $140,000 budget.

Concept Generation:

It is helpful to know that concept generation is a process that helps the brainstorming of a

project, which leads to the development of the project. There is a two step process that is

included with concept generation. The first step is to identify the problem, and the second step is

to make a diagram to help fix the problem.

The problem with a zero energy home project is to develop an energy efficient home

under $140,000 that can handle the drastic Pennsylvania weather. To help fix this problem, the

diagram will include the main three components that go into a zero energy home. These three

components are energy, water, and heating and cooling. The first main component to the home

was energy. The home must be able to store and accept energy somehow. This will enable it to

be a functional home. Not only does the home have to be able to store the energy, but it also has

to be able to convert it into usable energy, like heat and electricity. This usable energy can then

be applied to run the home, and also have the leftover energy be saved for later use.

The next component to a zero energy home is water. The home must have a way to get

water, but also have a way to get rid of waste water. This is an easy part to the project since all

that was involved was plumbing. However, the home also needed a way to heat the water for

showering and other everyday conveniences. The easiest way for this to take place is by using

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heat and electricity. The heat and electricity was also in easy decision, but the hard part was

trying to figure out how to create it. Creating it is connected to the heating and cooling of the

house. For this, a zero energy home needs to have efficient systems installed. One system used

was the concrete slab. This was placed by a big sliding glass door. Because of the slabs

placement, it could get heated by the sun in the winter to produce heat for the home. Another

system used was solar panels. Solar panels created the electricity used to run the home, but also

heat the water for that shower. The last system used was an overhang that was placed over the

windows. For HLSK, they used a roof to create that overhang. An overhang provides a shadow

to keep the sun from coming in the summer, which keeps the house cool, while allowing sun to

come in the winter to help keep the house nice and cozy.

All three of these components are used to produce energy apply that energy to run the

home. They all also save energy by being energy efficient. To go back to the problem of the

home being under $140,000, the HLSK HomeBuilders used the right systems to maintain under

that budget, while proving to be sustainable even in the harsh conditions that Pennsylvania can

have.

Concept generation diagram

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Concept Selection:

Our team used concept selection in making various decisions for our home, like the home

size, to have a 2­car, 1­car, or no garage, and which brand of clothes washer/dryer to purchase.

Concept scoring matrix for washer

For the washer/dryer combo, our team was deciding between three brands ( LG, GE,

Whirlpool). The selection criteria consisted of whether it stayed within the budget, how long it

takes to payback, how much energy it uses, and how much water it uses. Each was rated based

off of importance to accomplishing the ultimate goals. Budget had 20%, payback time had 25%,

energy use had 30%, and water use has 25%. LG scored the highest with a total score of 4 while

GE had 2.65 and Whirlpool had 2.05.

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Cost Model:

The ZEH Calculator

The house comes in at $237 under budget and is also a very livable 875 sq. ft. while

meeting all the needs of a family of four. Most of the energy costs come in the form of major

appliances with a close second being miscellaneous electric loads. Having less windows has

helped the cost come in under budget and careful selection of appliances all aid in the team’s

goal.

Design:

In this model there are many features that allow the home to produce all of its own

energy. To start, solar panels are placed on the south facing roof at an angle of 33.6 degrees.

This allows for optimal sun exposure for the Philadelphia area. Secondly, the south facing wall

has four triple low e windows, which are very efficient, and a sliding glass door. These not only

let light into the house, but also heat in the winter. Another great feature of the home is the two

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foot overhangs located on either sides of the roof. These create shade from the sun when it is

high in the summer while still having exposure when it is low in the winter. One last aspect of

the home is it is a ranch style home. These are much easier to heat due to the fact that heat rises

and it would have no where else to go besides the first floor with proper insulation. The

insulation in the walls is R60, an above average value for high efficiency.

Model:

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Isometric view (roof)

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Top view

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Front view

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Isometric view (no roof)

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Conclusion:

The resulting zero energy home meets all of the needs acquired from the customer

statements. The house meets the $140,000 budget while providing for the needs of a family of

four. The house produces its own power over the course of the year through its PV system while

also having enough to charge an electric car and put excess into the grid. The house is both

effective and aesthetically pleasing using an open floor plan and a modern style. This house

helps to serve as a beacon towards a greener future. It helps prove that sustainability can in fact

be achieved while also proving that to be sustainable you do not have to live in a mud hut. With

energy consumption at an all time high and the global warming crisis drawing closer, a change

needs to occur and a great start is with home like this.

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References:

Charlotte Vermont house. (2015). Retrieved August 11, 2015, from Whole Building

Design Guide website: http://www.wbdg.org/references/cs_ch.php

Doe zero energy home™. (2015, May). Retrieved August 11, 2015, from U.S.

Department of Energy website: http://energy.gov/sites/prod/files/2015/06/

f22/DOE_ZEH_JohnHubert_09­20­14.pdf

Doe zero energy ready home™. (2015, May). Retrieved August 11, 2015, from

Energy.gov website: http://energy.gov/sites/prod/files/2015/06/f22/

DOE_ZEH_Caldwell_Johnson_Afford_09­20­14.pdf

First solar pv modules. (2015). Retrieved August 11, 2015, from First Solar

website: http://www.firstsolar.com/Home/Technologies­and­Capabilities/

PV­Modules

U.S. Department of Energy. (2011, 12 12). Net zero house­ Charlotte, VT.

Retrieved August 11, 2015, from Zero Energy Buildings website:

http://zeb.buildinggreen.com/overview.cfm?projectid=1019

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