DC Rowhouse Remodel

DC Rowhouse Renovation - Strengthening the Original - Part 1: Foundations and Structural Bracing by Gregory Upwall

To determine the depth and size of the existing foundations test pits were dug.

Now that the demolition work is done, we have reached the point in the project where the new construction can begin - and the new work starts with the foundations. To most eyes, the foundation work can seem to move very slowly and the improvements can seem somewhat imperceptible and/or unremarkable. But to be sure, this phase is probably more important than any that will follow.

The depth and size of the existing footings are critical information for the structural engineer in determining whether new foundation work will be required to accommodate the new portions of the project.

If the foundation work is inadequate, the building could settle or shift, causing cracks and structural issues in the rest of the house. At the time that this house was built (nearly 100 years ago) the importance of the foundation work was not fully understood as it is understood today. Although the craftsman who originally built these houses were very skilled in the arts of masonry and carpentry, the foundations that they placed the buildings on were often inadequate compared to today’s standards. Fortunately, there has been much progress over the years in understanding the importance of well-constructed foundations. Foundations are to buildings what roots are to trees, they are the un-sung heroes of all good construction. For without them, the parts of the building that we see and occupy would be greatly compromised.

Remember that our project falls under what we would consider an “intensive renovation”, meaning that our goal is to replace and upgrade as many of the components and systems (to meet modern standards) as possible while retaining the original exterior walls and architectural features of the house. Since we have removed the entire rear wall of the original house to make way for the new expansion of the house, our structural engineer determined that most of the new fortifications were required in that area of the house.

Our foundation work was started by documenting the size and condition of the original foundations below the existing house. In order to see and measure the original foundations test pits were dug during the demolition phase and a soils report was prepared by a geotechnical consultant following the directives of our structural engineer’s drawings and specifications. Many readers of this blog may have heard of “under-pinning”, which is a term that is commonly used to describe the process of excavating below existing foundations in order to install new reinforced concrete foundations below them. This is usually done in order to create higher ceilings in low basement or crawlspace areas. This work can be very slow and expensive since the new foundations have to be installed in short segments, one section at a time. Thankfully in our case, since the existing foundations were low enough, we were able to lower the basement slab by a few inches without triggering under-pinning on this project, which was a big cost savings!

Foundations require digging, and since we are building them under the existing house, most of the digging must be done by hand. Our contractor and his crew actually broke apart and removed the original concrete floor in the basement and several inches of the soil beneath. All of the debris was piled up in the basement and then hauled by hand out of the basement into a truck. This work is painstaking and we have a great appreciation for the workers who do this hard work.

Soil and concrete had to be dug by hand and piled within the basement before being hauled away.

This photo shows the large pit dug at the rear corner of the original house which extends completely underneath the original foundation.

Once the concrete was removed, large pits were dug at both rear corners of the house for the two new large foundations required in these locations. Since we had removed the old garage and will be rebuilding it entirely, a trench was dug around the entire perimeter of the garage for the new garage foundations. The other places where new foundations were required are at several interior posts that will support the new stairway, and below the new/re-built rear wall of the house. Reinforcing steel bars (or “re-bar”) were laid in the holes and extended vertically prior to pouring concrete. After the concrete is poured, it “cures” over the next several weeks before reaching full-strength. 

Pits dug for new footings that will support the new stairway on the interior of the house.

New trench for Garage foundations (ready for concrete to be poured).

 

Structural engineer’s drawing showing new foundation and steel frame.

Trench for the new garage foundation wall ready for concrete to be poured (with steel re-bar installed).

 

New steel frame installed at basement level. The bolts have been set into the old brick wall with epoxy to create a stronger bond with the old brick.

Since the rear wall and portions of the floors were removed for the new stairway, the existing alley side wall was left unstable from the engineer’s point of view, so a structural steel frame was required in order to stabilize the wall and to stiffen the house against lateral forces (such as wind and seismic forces). Since the side wall faces the alley and is not against another rowhouse, it has increased bracing requirements which in this case were addressed by the internal steel frame. The steel frame was erected on site by a steel fabrication contractor and was fastened to the brick by a series of bolts that were drilled into the brick and set with epoxy to help them bond with the old brick. The steel frame has been designed to fit along the interior side of the brick and will actually be concealed behind the drywall once the project is finished. With the foundations and the steel frame in place the we can now turn our attention to the wood framing. The next step is reconstructing the existing floors to strengthen them and to create the opening for the new stairway……

View of new internal steel frame (looking down from 1st floor)

View of new internal steel frame (looking from rear yard)

View from rear alley showing scaffolding during installation of steel frame.

Steel fabrication contractor on site installing steel frame.

Steel fabrication contractor on site installing steel frame.

Steel fabrication contractor on site installing steel frame.

DC Rowhouse Renovation - The Demolition Phase by Gregory Upwall

View of interior after removal of walls and finishes

View of interior after removal of walls and finishes

The first phase of any renovation project is demolition, or more accurately, “selective demolition”. We typically prepare specific demolition drawings which indicate specific parts of the building to be removed in order to accommodate the new design. The removed components usually include walls, roofs, floors (or portions of them), windows, doors, cabinetry, plumbing fixtures, etc. For this project the demolition was significant. In order to accommodate the new rear addition, all 3 stories of the original rear brick wall had to be completely removed. To make way for the new 3rdfloor addition, the original roof will be removed entirely. On the interior all of the original walls, cabinetry, radiators, plumbing, electrical wiring and fixtures were completely removed. Even the original stairways were removed since they will be in a different location in the new design – this is what is typically referred to as “gutting” the house.

2nd floor after interior demolition

2nd floor after interior demolition

2nd floor after interior demolition

2nd floor after interior demolition

While the housing stock here in DC spans several centuries, the majority that come into our office as renovation projects were built between 1890-1930. Homes of this era can often contain old layers of lead paint and asbestos (which was used widely in many different building products from flooring to insulation to siding). These materials are hazardous and should be removed by professional abatement contractors who are trained in the proper removal and disposal of these materials. Another common concern comes from the very dust that is produced when removing old building materials since it commonly contains significant amounts of mold and other contaminants that can cause respiratory problems. These materials and conditions should not be overlooked and proper measures should be taken during the removal and disposal of materials that are to be removed from the building.

Another consideration that we recommend to our clients during the demolition phase of the project is the opportunity to salvage certain materials that are being removed for re-use or recycling. This is commonly referred to as “de-construction” and can help to divert significant amounts of waste from ending up in the landfill. It is generally advisable to consult with a de-construction contractor prior to the start of demolition work in order to identify which materials, if any, are candidates for salvage. In most municipalities today construction waste is required to be sorted and hauled to different facilities. Metals such as copper and steel are good candidates for recycling. The goals should always be to a.) dispose of all materials properly, b.) salvage or donate any worthy materials for re-use, and c.) minimize the volume of material that will end up in the landfill.

Another concept that is worth mentioning whenever we discuss demolition is that of temporary “shoring”. This refers to any temporary measures or construction that will be required to support the building in the time between the removal of the existing components until the installation of the new structural components. Shoring often includes temporary posts and beams that must be securely installed by the contractor prior to removing portions of the existing building. In this project since so many walls are being removed and new openings are being created within the walls and floors (for new windows and stairways accordingly) it was necessary to install a temporary bearing wall at the basement and 1stfloor levels in order to support the existing floor framing during construction.

View of original stairway (before it was removed)

View of original stairway (before it was removed)

Demolition often goes quickly once started so this is often a time when it appears that a lot of progress is being made, which can be very satisfying (especially after months of waiting for permits to be approved). It can be both scary and deeply satisfying to see the old, worn and dilapidated parts of the building being removed to make way for the new construction to come. This is also the phase when you get to see the real “bones” of the building and to identify areas in need of repair. This is generally the time when we remind ourselves of the common saying  that “it’s going to get worse before it gets better”.

DC Rowhouse Renovation - Pre-Construction Challenges by Gregory Upwall

The Challenges: Permitting, Contractors, Budget:

This project, like so many that we undertake for our clients, faced a list of challenges in the DCRA permit review process. DCRA’s permit reviews have gotten increasingly more focused over the past several years, but we have been actively following and keeping pace with their increased efforts. A single-family house renovation and addition such as this one is reviewed by as many as 8-10 separate review disciplines, each with their own comments and requirements. But finally, after multiple rounds of comments and 8 months of review, we were granted our building permit and allowed to start construction. Keep in mind that while the proposed drawings were under review at DCRA, we had gone ahead and pulled a separate demolition permit that allowed us to remove all of the interior (non load-bearing) walls and finishes (we highly recommend this to all of our clients when possible as it allows everyone to see the actual structural members). During this time we also had exploratory test pits dug at the corners in the existing basement to determine the depth, size and soil conditions of the existing footings (aka “footers”). This information along with a simple soil bearing report (prepared by a licensed geo-technical engineer) allowed our structural engineer to determine how much the basement slab could be lowered along with sizing any new foundation work needed to support our new design.

A sheet from the Construction Drawing Set

A sheet from the Construction Drawing Set

Our budget for the renovations is roughly $250,000 which also creates a challenge for such an extensive renovation in today’s DC construction market. In an effort to try to stay within this budget we decided to work directly with each of the individual sub-contractors rather than hiring a general contractor to manage all of the various components of the project. Since we have worked closely with many different contractors we were able to find a team of subs all with competitive prices and whom we think will do a good job on the project. This approach where the architect becomes involved in the day-to-day oversight and management, more commonly referred to as a “Design-Build” approach, also allows us to modify and adapt the design and details along the way in response to unforeseen flaws within the existing building and in response to budget concerns. This design-build process also allows us to become intimately familiar with all of the details and particulars of the project. It’s very exciting for us as architects to be allowed to become so involved with the construction process.

DC Rowhouse Renovation - Design Approach by Gregory Upwall

Design, Space Constraints, Goals

The proposed design, retains the original front facade.

This old rowhouse, like so many that our clients come to us with, was compartmentalized into small cramped rooms and was lacking for natural light in the interior. (It was what they call a “Wardman style” here in DC – but in this case, a mini-Wardman.) (insert link about history of Wardman style) Since the house was so small (less than 400 square feet per floor on each of the existing three floors) we knew right away that an addition to the house ranked high on the wish list (see “Pop-ups” & “pop-backs” below). After a few months of exploring different design ideas, we arrived at a scheme that will add a new upper level 3rd story to the house along with some modest additions on the back of the existing house. The selected design aims to open up each floor of the house by removing many of the internal partition walls on the living levels and by creating an open stairway that will bring in daylight from a three-story glass block window that will be inset into the existing west-facing alley-side wall. Glass block is a good choice for this location due to it’s inherent durability, and its ability to buffer sound better than most window wall systems. We also liked glass block since it is still a masonry (modular) product and we felt it to be a more complementary material for creating a large glass opening in the 100+ year old wall.

Expanding the Envelope: “Pop-ups” & “pop-backs"

Proposed rear design showing new upper and rear addition.

As mentioned, this house was small – about 980 square feet total in 3 levels. If ever there was a time where a vertical addition (aka “pop-up”) or rear addition (“pop-back”) made sense, it was here. We have successfully designed several of these additions for other clients – and yes, we know that this is a touchy topic for some out there. Our feeling on the subject is that these additions are not, in and of themselves, either good or bad. There are well-designed additions – and well, those that should have never been allowed to be built. These additions should always be set back from the existing architectural features of the house, which should be preserved. When designed correctly, and in deference to the original façade and historical features of the house, these additions are an opportunity for great creativity and possibility in revitalizing old housing stock in a city faced with rising property values and a shortage of good quality housing. We also believe that the added density created by these additions is an important component of sustainable redevelopment. By adding square footage, bedrooms, or even additional living units to existing buildings we are doing so without putting a strain on new infrastructure (roads, utilities, services) that is typically associated with new housing developments. In fact, in our opinion, zoning regulations for cities like DC with so much existing single-family housing stock, should encourage this kind of increased density – the new DC 2016 Zoning Regulations landed somewhere in the middle on this topic (more on this in a later post). With well-designed additions to existing stock, we can create within our existing neighborhoods, more living space and more opportunities for families and individuals to live together within these revitalized neighborhoods.

 

DC Rowhouse Renovation - The Endeavor Begins... by Gregory Upwall

Project Introduction

Existing property at the time of purchase.

For those of us who choose to live in a rapidly gentrifying metropolitan region, the cost of housing and the dream of owning a home are usually near the top of the list of challenges that we live with. The desire to live in the urban center where walk-ability and proximity between home, work , and regular daily activities are a real possibility is a primary motivation for families to want to live in the urban center.

Washington DC is fast becoming a highly desirable city for people who are eager to ditch their cars, long daily commutes, traffic jams, etc. With so many neighborhoods experiencing this new wave of desirability and revitalization comes the less desirable realities: escalating costs, and a limited supply of homes that can’t keep up with the growing demand. Not to mention, you get less home for your dollar when you live in the city. Still, for those of us who dream of a simpler, more efficient, car-free lifestyle, the trade-offs are something we are willing to accept.

Many of our clients are recent buyers who, motivated by the above reasons, have decided to purchase a home in an up-and-coming neighborhood that is, well, what you might call a “fixer-upper”. In DC, that term can often be an understatement as many of the older row homes have been sorely neglected and are in need of serious upgrades both structurally and aesthetically.

A very typical category of our clientele are people who might have never envisioned themselves entering the home renovation arena, but who have found themselves there nonetheless, typically because the price of homes already renovated on the market have been too high for them to swallow or afford. And suddenly, along with their decision to acquire an old house, they have entered a world filled with uncertainties.

In November of 2017, I myself took the plunge and decided to buy a charming but long overdue in the need-for-upgrading rowhouse near Howard University in the Pleasant Plains neighborhood (roughly between Columbia Heights and Petworth). And now I, just like so many of our clients, have committed to the uncertain and financially precarious undertaking of a full and intensive renovation of the house.  This series of blog posts will document the project throughout the renovation both in photographs and words in the hope that it might shed some light on the various phases of the work and explore different aspects of the project as they come to life. It is our hope that by documenting this process we will be able to help those of you who might be considering taking on your own fixer-upper project.

Existing rear view of house (at time of purchase)

The Property

The house that I finally purchased (I had put in bids on two other DC rowhomes in the preceding two years – both of which were rejected) is a small Wardman style rowhouse (we’ll call it a “mini-Wardman”) located on a tree-lined one-way street with a great “neighborhoody” feel. The house is an end unit, meaning that its west wall faces directly onto an alley. This was seen as a major selling point since that alley wall meant additional opportunities to bring in natural daylight to the re-designed interiors (more on this later when we discuss Design). The house is two stories over a basement with very compact living, dining, and kitchen on the 1st floor, and two bedrooms + one bath on the 2nd floor. At the rear of the house is an attached 1-car garage. The woman that I bought the home from had lived in the house since 1960 and had not undertaken any remodeling or upgrades since then.

 

 
Existing kitchern at time of purchase

Existing kitchern at time of purchase