k a i t l y n badlato w o r k
s a m p l e 2016
k a i t l y n badlato LEED green associate kbadlato@gmail.com 6 3 1 . 3 9 8 . 0 1 2 3 w w w. b a d l a t o . c o m
k a i t l y n badlato education
LEED g r e e n a s s o c i a t e kbadlato@gmail.com 6 3 1 . 3 9 8 . 0 1 2 3 w w w . b a d l a t o . c o m w w w. l i n k e d i n . c o m / i n / k b a d l a t o
Washington University in St. Louis | 2013 - present Master of Architecture, December 2015 Master of Construction Management Candidate, May 2016 The Maggie Sedilis Goldstein Scholarship recipient GPA 3.84
University of Virginia | 2009 - 2013
B.S. Architecture, Minor in Global Sustainability and Urban & Environmental Planning. GPA 3.43, Dean’s List 2012 - 2013
Center for European Studies and Architecture | Summer 2011
A graduate program in collaboration between Virginia Tech and the University of Virginia in Riva San Vitale, Switzerland. Studied the role of sustainable economic, environmental, and cultural policies and systems in Switzerland and Germany. GPA 4.00
experience
WUSTL Facilities and Planning Management | May 2014 - present
Intern, Responsible for updating the Washington University GIS database using recent surveys of the main campus. Developed graphics and signage for a campus sustainable landscape walk. Assisted in construction administration of a new student apartment complex.
Teaching Assistant | January 2015 - present
Fall 2015, Assistant to Professor Paul Donnelly for ARCH 538 - Advanced Building Systems Spring 2015, Assistant to Instructor Elisa Kim for ARCH 212 - Introduction to Design Processes IV
Laura Heim Architect, PLLC | May 2013 - August 2013
Intern, Assisted the firm by creating presentation drawings and renderings, and compiling construction and issue for bid documents for residential projects, and drafting plans for zoning studies.
Skeo Solutions | May 2012 - May 2013
Intern, worked with the Community Planning and Design Group to research and analyze brownfields. Created maps and layouts for published reports.
UVa Special Collections Library, Digitization | February 2011 - July 2012
Digitization Services Assistant, performed the digitization of the library’s rare books collection, photographing and editing architectural drawings, manuscripts and books.
skills
Digital Modeling Rhino AutoCAD Google Sketchup ArchiCAD Revit Microstation
Graphics InDesign Illustrator Photoshop Acrobat Bridge Premiere
Rendering Maxwell VRay Flamingo
Other
ArcGIS Primavera P6 Laser Cutting Baking Cupcakes
organizations
WUSTL Sam Fox School Graduate Architecture Council | 2014 - Present
President, 2015 - 2016 Student Life Representative, 2014 -2015 Coordinated communication between faculty, staff and students concerning the program’s curriculum and community. Developed and distributed a survey on student life and the curriculum to the graduate student body. Presented results to faculty in order to start a dialogue about the promotion of safety and health of the student body.
UVa Class of 2013 Trustees | 2010 - present Alumni Trustee, 2013 - 2018 Marketing Committee, 2011 - present Social and Entertainment Committee, 2010 - 2011
UVa Honor Committee | 2011 - 2013
School of Architecture Representative, Elected to serve on the executive committee for the student-run Honor System, serving as a voice for students and faculty of the school, as well as maintain and administer the Honor Code through investigations and trials of offenses. Member of the Policies & Procedures Committee, which discussed and presented new legislation and procedural changes to the Honor Committee.
American Institute of Architecture Students | 2010 - 2013 Co-president of the University of Virginia Chapter, 2012 - 2013 Recruitment Chair, 2011 - 2012 Freedom by Design Member
Habitat for Humanity | 2011 - 2013
Attended spring break trips to build homes in Georgetown, SC and Rocky Mount, NC. Participated in builds and fundraising in the Charlottesville area.
publications & projects
“Misi-Ziibi Beer” | 2015
Served as editor for the publication of a studio research book and part of the production team of a school exhibition highlighting the studio’s work investigating the architecture of breweries and their place in St. Louis.
“Student Remembrance Garden,” Colonnade | Summer 2013 issue
Seminar class to design a student memorial at the University of Virginia in collaboration with the Office of the Architect, the Arboretum Committee, and the UVa Center for Design & Health. The design was passed on to a local architect for construction in the near future.
“ecoMOD: South Support,” Jefferson Public Citizens Journal | 2013
Received a $30,000 grant to assist the ecoMOD project with Southside Outreach in South Boston, VA. Led in the design and implementation of a monitoring system and post occupancy evaluation to measure the effectiveness of the Passive House standard as a solution to the issue of affordable housing.
“Trash Techtonics Studio,” Catalyst | 2013
Studio project creating a pavilion out of recycled materials featured in the UVa School of Architecture publication.
evolvin g per man ence
St. Louis, MO Thesis/Degree Project, Fall 2015 Instructor: Eric Hoffman
The identity of a building is ever changing. Over the last century, a modest stone church in mid-town St. Louis has witnessed the rise, fall, and rebirth of its community. At its conception, the church sat on the corner of Delmar Boulevard and North Spring Avenue in a once vibrant residential neighborhood. Today the church is one of only three structures that remain from this time period. As people left the city and their homes disappeared, Delmar was severed at this intersection and shifted north. In 2002, the church burned down leaving only its stone shell. It remains untouched and stands as an open relic; a ruin. Enrichment through adjacencies. The intervention seeks to regenerate the identity of the church from collapse to utility through a structure and program that extends from the existing church ruin to Delmar Boulevard’s new route. The composition of old and new form a visual and performing arts center for the adjacent high school. The ruin serves as an anchor and becomes a sculpture garden, exposing the memory of its past while also reaffirming its presence in the community. Opposite, a recital hall meets Delmar Boulevard. In between, the original boulevard is transformed into an outdoor performance and exhibition space for community gatherings. Studios dance along terraced urban rooms that reinforce strong connections to both street and school.
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kaitlyn badlato / kbadlato@gmail.com
kaitlyn badlato / kbadlato@gmail.com
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kaitlyn badlato / kbadlato@gmail.com
kaitlyn badlato / kbadlato@gmail.com
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St. Louis, MO ARCH 512, Fall 2014 Instructor: Gia Daskalakis
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kaitlyn badlato / kbadlato@gmail.com
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river des peres greenway
A demonstration farm for aquaponics serves as an approachable industry to the residents of the community where they can learn about the potential of urban farming in St. Louis. River Feeds restores the river both artificially and organically, through a hard and soft edge. The hard edge works with the current limestone on the east bank, inserting the aquaculture tanks into the channel walls. While the fish native to the river cannot survive in the polluted river, this artificial insertion provides a marked reintroduction to the river. The soft edge on the east bank removes the channel wall and changes the grade of the land to support stormwater remediation through natural systems. This recreation of the historical condition of the river artificially and naturally provides both educational and production opportunities for the area.
river des peres greenway
This crossing of the River Des Peres sets out to reclaim the historic river’s edge by bridging the history of the constructed river and the surrounding communities. The southern portion of the River des Peres creates a boundary between the city and county of St. Louis as well as industrial and residential corridors. The Great Rivers Greenway trails have begun to foster new connections in this area. River Feeds seeks to merge the two disconnected industrial and residential areas through a productive, teaching landscape.
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kaitlyn badlato / kbadlato@gmail.com
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U Va remembrance g arden
Charlottesville, Va LAR 5590, Fall 2012 & Spring 2013 Instructor: Nancy Takahashi Collaborative Project
This seminar and independent study project was initiated by the UVa Student Council to design a new memorial space for the community. My two colleagues and I presented our plans to the Student Council and Landscape & Arboretum Committee and the plans have been passed on to a local firm to further develop the plans for construction. The Remembrance Garden at the University of Virginia is a place where students can gather and grieve the loss of friends and classmates. In a space centrally located on Grounds, the garden offers a place of refuge and reflection. Poem-lined walks draw one into a calming space of lush plantings, seating and lighting. The garden utilizes the existing south brick wall to memorialize those who have passed away. Visitors can create memorials for loved ones by writing a name with chalk on a slate shelf in which flowers, candles, stones, and notes can be left. The wall commemorates the relationships of those who have passed--whether they were friends, mentors, hall-mates, brothers or sisters.
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kaitlyn badlato / kbadlato@gmail.com
kaitlyn badlato / kbadlato@gmail.com
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+existing vegetation
+utilities
+existing topography
+designed vegetation
+designed paths
+designed topography
student remembrance garden plan the university of virginia
existing storm draim
existing storm drain
existing sanitary sewer
paved terrace
existing sanitary sewer
existing grate
existing telecommunications
existing storm sewer
0’ 1’ 2’
4’
8’
3/16” = 1’-0”
16’
sheet 1
1 2
existing brick & bluestone bench
brick & bluestone bench
existing Ash/ Fraxinus sp.
4 2
Serviceberry/ Amelanchier laevis along walk 10’-0” o.c.
3 2 existing clean-outs
bench
relocate existing light pole
2 2
Serviceberry/ Amelanchier laevis along walk 10’-0” o.c.
existing Prunus sp.
Cryptomeria japonica (existing-to be continued into a hedge wall)
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+
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b rewing r etreat
St. Charles, MO ARCH 511, Spring 2014 Instructor: Derek Hoeferlin
The brewing retreat is focused on creating an experience that allows the visitor to be integrated into the brewing process. Instead of a glass envelope separating the visitor from the equipment, a separation of levels allows for a more direct experience, while maintaining a physical barrier from the production process. The form is an investigation of the brewing process and the life cycles of the ingredients throughout the process. Brewing requires different levels of energy required for the process, whether it be through heat, electricity or time required. These levels inform conceptual volumes to project a volume of the entire process. A tent-like structure encloses the process with a double skin barrier that allows for ventilation and shading. The brewing equipment lies within the carved ground, following the natural slope of the riverbank. Brewers and visitors inhabit cable suspended floors. The Missouri River and the Katy Trail provide a site that allows for seclusion, but also easy access for visitors by bike or foot and for delivery and shipment by access road. This retreat on the Missouri River is specifically for gypsy brewers, or brewers without their own brewery. This space would host brewers in residence and be able to create exclusive brews to be available at the brewery as well as distributed to local bars.
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kaitlyn badlato / kbadlato@gmail.com
kaitlyn badlato / kbadlato@gmail.com
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miles away from the event. In efforts to provide a reduction in greenhouse gas emissions, this project provides an on-site solution by creating an integrated core for shipping containers to plug into for energy, water, and electricity. The core also elevates the housing units by providing the visitor with surrounding views of the natural landscape. By designing temporary module structures that respond to the terrain, Landscape Flux rebrands the shipping container as a unitized system working as a network of shared resources between modules. The proposed plan comprises two structures with the flexibility to expand depending on the annual events. Each structure is composed of a concrete steel reinforced central core with six cantilevered containers. The containers have an insulated sleeve on the interior allowing for controlled heating and cooling. Geothermal heating and cooling systems rooted in the ground are piped up through the central core and are connected to the units for radiant heating and cooling. Well water is pumped to the central core, filtered, and delivered to the units as needed. Solar panels on the roof of the central core power the structure’s generator. Additional underground electricity connections are also available.
l a n ds cap e f lu x
+ Situated between two mountain ranges + Blue Ridge Mountains to the West + Southwest Mountains to the East
daily sun angles on the site
Humid Subtropical Climate (Koppen Cfa) + Four distinct seasons + Summer: high humidity, frequent thunderstorms + Winter: mild with mid-latitude cyclone precipitation & occasional frost + Rainfall is spread equally throughout the year
Charlottesville, Va Advanced Building Systems, Fall 2014 Instructor: Paul Donnelly Collaborative Project
Shipping Containers have been a design dilemma throughout this past decade, however additive structural systems have not produced profound design solutions. Landscape Flux is a housing structure made of shipping containers for seasonal events taking place throughout the year in Charlottesville, Virginia. Located on the University of Virginia campus, this project provides the temporary housing necessary to meet the demands of population changes for short periods of time. Film festivals, equestrian races, music festivals, among prevailing winds other events, require 3-5 day visitors Designer’s Statement to stay at hotels 10-15 miles away from the event. 110
The purpose of this proposal is to mitigate transportation by providing on-site temporary housing for the influx of event populations. Inspired by the broader urban problem of excessive driving, this proposal focuses on adapting shipping containers, not as autonomous structures, but as an integrated systems working towards a more efficient constructed whole. This project seeks to operate independent of city-supplied water and power, and looks to new construction to only build what is necessary for optimal efficiency.
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In efforts to provide a reduction in greenhouse gas emissions, this project provides an on-site solution by creating an integrated core for shipping containers to plug into for energy, water, and electricity. The core also elevates the housing units by providing the visitor with surrounding views of the natural landscape. By designing temporary module structures that respond to the terrain, Landscape Flux rebrands the shipping container as a unitized system working as a network of shared resources between modules. The proposed plan comprises two structures with the flexibility to expand depending on the annual events. Each structure is composed of a concrete steel reinforced central core with six cantilevered containers. The containers have an insulated temperature sleeve on the interior allowing for controlled heating and range cooling. Geothermal heating and cooling systems rooted in the ground are piped up through the central core and are connected to the units for radiant heating and cooling. Well water is pumped to the central core, filtered, and delivered to the units as needed. Solar panels on the roof of the central core power the structure’s generator. Additional underground electricity connections are also available. 90 80 70
comfort zone
60 50
recorded high
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average high
design high mean design low
30 20 10
average low
recorded low
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sep
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corrugated metal roof
living units
communal facilities metal studs
section | construction detail B section | construction detail A
section | construction detail C
steel frame
section | overall structure
secondary framing circulation
taken through restroom container
corrugated metal walls plywood top floor
triple glazed windows with low-e coating window sill
steel frame post connection
window frame
existing container cladding
3/8” gypsum board 3/8” waterproof wall board
existing steel container frame connection + container decking 3/4” plywood decking 4” batt insulation
4” batt insulation water + vapor barriers existing container cladding
steel unit brace
3/8” x 4” x 4” metal plate
finish floor 2” radiant floor pipe 3/8” x 4” x 4” metal plate 4” x 2” aluminum framing studs
3/8” gypsum board
plywood sheathing
3/8” waterproof wall board
water + vapor barriers
water + vapor barriers
existing steel container frame connection + container decking
4” x 2” aluminum framing studs
existing container cladding
window lintel
4” batt insulation
triple glazed windows with low-e coating
window frame triple glazed windows with low-e coating
section | construction detail A
steel reinforcement
section | construction detail B
taken at NW corner
taken at NW corner
steel truss structure
mechanical shafts
3/8” gypsum board 3/8” waterproof wall board 6” batt insulation
elevator shaft
added overhead lighting
2” hot water pipe added glazing
finish floor
staircase
units
drywall finish on walls plywood insulation
2” radiant floor pipe 3/8” x 4” x 4” metal plate
4” x 2” aluminum framing studs 8” batt insulation existing container cladding 3/4” plywood decking water + vapor barriers
kitchen bathroom mechanical services
insulation and top floor mechanical system in basement
radiant heating
structure axonometric
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container axonometric
kaitlyn badlato / kbadlato@gmail.com
programmatic diagram
existing steel container frame connection + container decking steel frame post connection
section | construction detail C taken at South utility wall _ restroom plan
exterior view approaching the structure
sectional perspective
sectional perspective
daily sun angles on the site
elevation 1/16” = 1’ 0”
elevation 1/16” = 1’ 0”
plan 1/16” = 1’ 0”
plan 1/16” = 1’ 0”
kaitlyn badlato / kbadlato@gmail.com
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St. Louis, MO ARCH 419, Fall 2013 Instructor: Anna Ives
Urban Filters is a mixed use development along the metrolink, which seeks to mediate the convergence of an industrial urban fabric and a natural refuge. A series of physical and visual filters create a space in which residents and commuters can seek refuge as a destination or simply a stop on their commute.
1'-0"
studio unit
SCALE: 1/8" =
SCALE: 1/8" =
SCALE: 1/8" =
1'-0"
1'-0"
one bedroom unit
one bedroom unit - ADA accessible
SCALE: 1/8" =
1'-0"
two bedroom unit - first floor
urban f ilters
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two bedroom unit - second floor
two bedroom unit - first floor
1'-0"
SCALE: 1/8" =
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1'-0"
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one bedroom unit - ADA accessible
SCALE: 1/8" =
SCALE: 1/8" =
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progression of privacy
1'-0"
6
one bedroom unit
SCALE: 1/8" =
5
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progression of light
SCALE: 1/8" =
1'-0"
1'-0"
1'-0"
+40'-0" 5 Story
SCALE: 1/8" =
1'-0"
expa
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dry
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spac
e +20'-0" 3 Story
ge +10’-0� 2 Story
mee
hierarchy of spaces SCALE: 1/8" =
room +30'-0" 4 Story
Aa
com pu
1'-0"
1'-0" SCALE: 1/8" =
SCALE: 1/8" =
SCALE: 1/8" =
studio unit
SCALE: 1/8" =
1'-0"
hierarchy of spaces
SCALE: 1/8" =
division of spaces
division of spaces
1'-0"
1'-0"
progression of light
progression of privacy
mee ting
AD
ting
room
1'-0"
0'-0" 1 Story
wall section
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kaitlyn badlato / kbadlato@gmail.com
accesibility
egress
SCALE: 1/4" =
1'-0"
Scale: 1” : 1000’
CONCEPT DIAGRAM Scale: 1” : 1000’
filterin g f or ney
Forney, TX ARCH 3020, Spring 2012 Instructor: Iñaki Alday & Tat Bonvehi Collaborative Project Water is a scarce resource in Forney, Texas. Thus, the basis for our design proposal is focused on maximizing the usage of water present on the site. By creating a network of water filtering channels which utilizes, filters and carries all the run off-waste of the site, we attempt to provide a system that decreases waste water.
NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS 8% of watershed
22% of watershed
8% of watershed
22% of watershed
NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS 8% of watershed
22% of watershed NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS
NATURAL TOPOGRAPHY | NATURAL WATER DISTRIBUTION | EXISTING ROADS 8% of watershed
22% of watershed
8% of watershed
22% of watershed 15% of watershed
8% of watershed
22% of watershed 15% of watershed 15% of watershed
15% of watershed 15% of watershed
15% of watershed 55% of watershed
55% of watershed 55% of watershed
EXISTING BASINS ON SITE WITH NATURAL WATER FLOW 55% of watershed
EXISTING BASINS ON SITE WITH NATURAL WATER FLOW 55% of watershed EXISTING BASINS ON SITE WITH NATURAL WATER FLOW 8% of watershed 55% of watershed
8% of watershed
22% of watershed
EXISTING BASINS ON SITE WITH NATURAL WATER FLOW
22% of watershed
of watershed EXISTING8%BASINS ON SITE WITH NATURAL WATER FLOW
22% of watershed
EXISTING BASINS ON SITE WITH NATURAL WATER FLOW 8% of watershed 8% of watershed
8% of watershed
10% of watershed 22% of watershed 10%ofofwatershed watershed 22% 10% of watershed 22% of watershed
10% of watershed 10% of watershed
10% of watershed
60% of watershed
60% of watershed 60% of watershed
MODIFIED BASINS WITH ROAD NETWORK OVERLAY WATER DISTRIBUTION ON THE NATURAL LOW POINTS 60% of watershed ROAD NETWORK ON NATURAL HIGH POINTS
MODIFIED BASINS WITH ROAD NETWORK OVERLAY 60% of watershed WATER DISTRIBUTION ON THE NATURAL LOW POINTS
ROAD NETWORK ON NATURAL HIGH POINTSOVERLAY MODIFIED BASINS WITH ROAD NETWORK WATER DISTRIBUTION ON THE NATURAL LOW POINTS 60% of watershed ROAD NETWORK ON NATURAL HIGH POINTS
MODIFIED BASINS WITH ROAD NETWORK OVERLAY WATER DISTRIBUTION ON THE NATURAL LOW POINTS
ROAD NETWORK ON NATURAL HIGH POINTSOVERLAY MODIFIED BASINS WITH ROAD NETWORK WATER DISTRIBUTION ON THE NATURAL LOW POINTS ROAD NETWORK ON NATURAL HIGH POINTS
MODIFIED BASINS WITH ROAD NETWORK OVERLAY WATER DISTRIBUTION ON THE NATURAL LOW POINTS ROAD NETWORK ON NATURAL HIGH POINTS
PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW
PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW PLANNED WATER PATHS DERRIVED FROM THE NATURAL WATER FLOW
PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE
PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE PLANNED ROADWAYS ON THE NATURAL HIGH POINTS OF THE SITE
DISTRIBUTION OF ROAD NETWORK + WATER FILTRATION NETWORK+ PEDESTRIAN PATHS
kaitlyn badlato / kbadlato@gmail.com
DISTRIBUTION OF ROAD NETWORK + WATER FILTRATION NETWORK+ PEDESTRIAN PATHS
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k a i t l y n badlato LEED green associate kbadlato@gmail.com 6 3 1 . 3 9 8 . 0 1 2 3 w w w. b a d l a t o . c o m